Post on 05-Apr-2020
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-3) SERVING: Asst. Principal Office A100A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
A100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 72 °F
c 69.9 °F
d 66.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.9 °F
d 57.3 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
A100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
A100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Conference A100B
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
A100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.9 °F
d 75.1 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.9 °F
d 56.6 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
A100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
A100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-13) SERVING: Chemistry A101
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A101_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 72 °F
c 69.9 °F
d 63 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.4 °F
d 54.4 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A101_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A101_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Classroom A104
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 72 °F
c 70.3 °F
d 70.5 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.9 °F
d 59.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-12) SERVING: Special Ed. A114A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A114A_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69 °F
d 69.9 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.5 °F
d 57.9 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A114A_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A114A_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-12) SERVING: Special Ed. A114B
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A114B_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.1 °F
d 66.5 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.1 °F
d 54.5 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A114B_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A114B_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Classroom A116
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A116_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 70.1 °F
d 72 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.6 °F
d 61.5 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A116_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A116_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: B.C.I.T. A119
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A119_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.6 °F
d 56.2 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A119_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A119_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Classroom A122
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.4 °F
d 73.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.6 °F
d 59.3 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-7) SERVING: Lockers A140
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
A140_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 74 °F
c 72 °F
d 54.3 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
A140_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
A140_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Guidance Office A200F
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
A200F_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 76.5 °F
d 71.5 °F
6
7
8 Yes X No
a 70 °F
b 74 °F
c 75.8 °F
d 63.4 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations: _During the test, the SAT did not decrease below 63.4°F and the LWT
did not increase significantly (Before LWT=84.3°F; During LWT=86.3°F). The SAT should
ideally be below 60°F during full cooling mode in order to have proper response time.
____________________________________________________________________________
Sheet No. 2 of 3
A200F_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
A200F_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Security A200J
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
A200J_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 72.9 °F
d 73.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 73 °F
d 55.1 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
A200J_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
A200J_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Storage/Prep A203A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A203A_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.2 °F
d 70.1 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.2 °F
d 56.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A203A_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A203A_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-18) SERVING: Science A203
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A203_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71 °F
d 66.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.6 °F
d 52.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A203_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A203_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Classroom A208
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A208_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.2 °F
d 70.4 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71 °F
d 59.3 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A208_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A208_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Classroom A210
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.1 °F
d 76.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.1 °F
d 61.7 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-13) SERVING: S.G.I. A211
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A211_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.1 °F
d 68.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.1 °F
d 52 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A211_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A211_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-17) SERVING: Science A223
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A223_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 70 °F
c 69.3 °F
d 58 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A223_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A223_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-17) SERVING: S.G.I. A226C
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
A226C_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.9 °F
d 60.6 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
A226C_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
A226C_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-2) SERVING: Conference B106
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B106_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.2 °F
d 73.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.7 °F
d 58.9 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
B106_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
B106_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-5) SERVING: Workroom B108
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B108_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 72 °F
c 70.2 °F
d 73.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.2 °F
d 55.6 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
B108_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
B108_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Computer Classroom B112
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B112_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 72 °F
c 70.7 °F
d 59.4 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
B112_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
B112_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-6) SERVING: E.L.L. B201
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B201_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 73.5 °F
d 72.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 73.5 °F
d 58.4 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
B201_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
B201_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-3) SERVING: Psych B204
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B204_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.4 °F
d 71.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.4 °F
d 56.6 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
B204_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
B204_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Computer Lab B208
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
B208_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 74 °F
c 72.6 °F
d 51.7 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
B208_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
B208_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-3) SERVING: Asst. Principal Office C100A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
C100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 73.8 °F
d 74.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 73.8 °F
d 58.4 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
C100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
C100A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Conference C100B
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
C100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.5 °F
d 74.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.5 °F
d 57.8 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
C100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
C100B_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Security C100G
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
C100G_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 73.2 °F
d 72.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 73.2 °F
d 58.1 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
C100G_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
C100G_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-17) SERVING: Science C103
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C103_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.6 °F
d 71.2 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.1 °F
d 57.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C103_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C103_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Classroom C104
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.8 °F
d 70 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.8 °F
d 58.6 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C104_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Classroom C110
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C110_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.8 °F
d 71.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.8 °F
d 61.2 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C110_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C110_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: L.P.C. C112
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C112_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.3 °F
d 74.9 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 68.8 °F
d 60.2 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C112_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C112_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Classroom C115
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C115_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.8 °F
d 57.2 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C115_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C115_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: Career C122
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.1 °F
d 60.4 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C122_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-12) SERVING: Corridor C125
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C125_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.3 °F
d 55.3 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C125_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C125_HP-12
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-3) SERVING: Asst. Principal Office C200A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
C200A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.1 °F
d 63.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.1 °F
d 54.8 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
C200A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
C200A_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-17) SERVING: Storage/Prep. C210A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C201A_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.2 °F
d 72.1 °F
6
7
8 Yes No X
a 65 °F
b 67 °F
c 72.2 °F
d 72.2 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations: During the test, the SAT did not decrease and the LWT did not increase
significantly (Before LWT=75.7°F; During LWT=80.7°F).
____________________________________________________________________________
____________________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C201A_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C201A_HP-17
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-18) SERVING: Chemistry C201
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C201_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72 °F
d 73.1 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.6 °F
d 50.4 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C201_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C201_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Classroom C204
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C204_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 71 °F
b 74 °F
c 71 °F
d 77.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69 °F
d 61.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C204_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C204_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-15) SERVING: Classroom C210
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 74.6 °F
d 72.3 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 74.1 °F
d 55.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C210_HP-15
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-14) SERVING: L.P.C. C212
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C212_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.7 °F
d 72.2 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.7 °F
d 54.9 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C212_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C212_HP-14
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-18) SERVING: Chemistry C222
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C222_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 70.9 °F
d 66.2 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.9 °F
d 52.2 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C222_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C222_HP-18
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-13) SERVING: S.G.I. C235
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C235_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.6 °F
d 72 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.6 °F
d 54.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C235_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C235_HP-13
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-7) SERVING: Lockers C240
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
C240_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 74 °F
d 74.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 74 °F
d 51.8 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
C240_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
C240_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-19) SERVING: Penthouse C301 East Corridor
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
C301_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 77.8 °F
d 57.9 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
C301_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
C301_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-6) SERVING: Training D102
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
D102_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.2 °F
d 74.2 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.7 °F
d 58.7 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
D102_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
D102_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-7) SERVING: Fitness Center D106 (Gym-side)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
D106_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.3 °F
d 50.8 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
D106_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
D106_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-10) SERVING: Faculty Dining D110
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
D110_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 70.5 °F
d 55.4 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
D110_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
D110_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-6) SERVING: Corridor D120
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
D120_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.3 °F
d 74.3 °F
6
7
8 Yes No X
a 65 °F
b 67 °F
c 71.4 °F
d 74.3 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations: During the test, the SAT did not decrease and the LWT did not increase
(Before LWT=78.7°F; During LWT=80.3°F).
____________________________________________________________________________
____________________________________________________________________________
Sheet No. 2 of 3
D120_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
D120_HP-6
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-21) SERVING: Aux. Gymnasium D201 (North)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
D201_N_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 70.7 °F
d 71.6 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.8 °F
d 65.7 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations: _During the test, the SAT did not decrease below 65.7°F although the
LWT did increase significantly (Before LWT=74.5°F; During LWT=90.2°F). The SAT should
ideally be below 60°F during full cooling mode in order to have proper response time.
____________________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
D201_N_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
D201_N_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-21) SERVING: Aux. Gymnasium D201 (South)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
D201_S_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71 °F
d 71.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.7 °F
d 64.3 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations: _During the test, the SAT did not decrease below 64.3°F and the LWT
did not increase significantly (Before LWT=82.3°F; During LWT=85.7°F). The SAT should
ideally be below 60°F during full cooling mode in order to have proper response time.
____________________________________________________________________________
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Sheet No. 2 of 3
D201_S_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Sheet No. 3 of 3
D201_S_HP-21
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-3) SERVING: Reception E100
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
E100_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.2 °F
d 47.8 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
E100_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
E100_HP-3
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-5) SERVING: Treatment E101
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
E101_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 70.5 °F
d 37.9 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
E101_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
E101_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Office E109
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
E109_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 74.3 °F
d 58.4 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
E109_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
E109_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-10) SERVING: Lobby/Commons E113 (Middle)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
E113_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.8 °F
d 43.1 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
E113_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
E113_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-4) SERVING: Well-Being Center E123 (F102)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
E123_HP-4
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.9 °F
d 73.6 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.9 °F
d 57.4 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
E123_HP-4
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
E123_HP-4
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-19) SERVING: I.S.S. E203
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
E203_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 72 °F
d 69.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72 °F
d 52.5 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
E203_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
E203_HP-19
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-20) SERVING: L.G.I. E211/Open Area
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
E211_HP-20
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 69.9 °F
d 49.6 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
E211_HP-20
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
E211_HP-20
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Corridor EI101
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
EI101_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.6 °F
d 50.8 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
EI101_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
EI101_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Office EI103A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
EI103A_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.5 °F
d 57.1 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
EI103A_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
EI103A_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-10) SERVING: Food Lab F101
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F101_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 74 °F
c 72.1 °F
d 72.6 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.1 °F
d 52.3 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F101_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F101_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-11) SERVING: LGI F103B
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F103B_HP-11
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71 °F
d 71.7 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71 °F
d 48.7 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F103B_HP-11
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F103B_HP-11
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Fab Lab F105A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F105A_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 70.9 °F
d 71.4 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.9 °F
d 56.6 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F105A_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F105A_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-7) SERVING: Instrument Storage F107A
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F107A_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.9 °F
d 75 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.9 °F
d 56.4 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F107A_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F107A_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-10) SERVING: Band Room F107
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
F107_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.8 °F
d 72.6 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.8 °F
d 50.7 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
F107_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
F107_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-7) SERVING: Digital Lab F111
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F111_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 71.3 °F
d 72.6 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.8 °F
d 52.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F111_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F111_HP-7
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Choral Room F115
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
F115_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 69.9 °F
d 72.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 69.9 °F
d 53.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
F115_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
F115_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Ceramics F201
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
F201_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.1 °F
d 72.8 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.1 °F
d 49.9 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
F201_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
F201_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-8) SERVING: Photography F205
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
F205_HP-8
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.9 °F
d 73.9 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 72.9 °F
d 57 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
F205_HP-8
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
F205_HP-8
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-5) SERVING: Corridor F216 (Middle)
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
F216_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 72.3 °F
d 50.3 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
F216_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
F216_HP-5
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-10) SERVING: I.T. Office F225
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj) Cooling Setpoint (°F, adj)
Sheet No. 1 of 3
F225_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 72 °F
c 74.1 °F
d 75 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 74.1 °F
d 55.8 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
SUMMER
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Night setup Set point:
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Supply Air Temperature
Sheet No. 2 of 3
F225_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
Heating Setpoint
Zone Temperature
Was the HP found to be heating as expected?
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Sheet No. 3 of 3
F225_HP-10
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-1) SERVING: Office G004
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
G004_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 68 °F
b 70 °F
c 71.8 °F
d 55.9 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
G004_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
G004_HP-1
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-2) SERVING: Food Storage G009
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Sheet No. 1 of 3
G009_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 70.5 °F
d 71.2 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 70.5 °F
d 57.8 °F
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Sheet No. 2 of 3
G009_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Heating Setpoint
Sheet No. 3 of 3
G009_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-9) SERVING: Dish Washing G103
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
G103_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 75.4 °F
d 53.5 °F
6
7
8 Yes X No
a NA °F
b NA °F
c NA °F
d NA °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
G103_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
G103_HP-9
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
70 74
65 80
ALARMS: The controller will monitor the heat pump conditions and shall report back to the BAS
any of the following alarm conditions: High or Low Pressure in the refrigerant circuit; High or Low
Discharge Air Temperature (SAT >70°F in cooling mode or <75°F in heating mode); High or Low
Leaving Water Temperature (LWT >135°F or <35°F) or Sensor Failure; Freeze Protection;
Condensate; or Brownout.
Cooling Setpoint (°F, adj)
PROJECT: Centennial SD - William Tennent HS
UNIT DESIGNATION: Heat Pump (HP-2) SERVING: Dry Storage G111
UNOCCUPIED MODE: The HP is controlled using the Unoccupied space temperature setpoint
shown below. The HP fan will only operate when the compressor is energized The controller will
cycle the HP fan, reversing valve and compressor to maintain the Unoccupied temperatures. A timed
local override control will allow an occupant to place the unit into an Occupied mode for a set period
of time (adj). Control will automatically return to the software schedule upon the time expiration.
OCCUPIED MODE: The HP fan is on and runs continuously. The controller maintains the room
temperature set point (adjustable, as shown below) by cycling the unit's reversing valve and
compressor. There will be a 1-minute delay when transitioning between heating and cooling modes.
The reversing valve shall fail open to the heating mode. The unit shall have a random-start timer that
prevents operation of the compressor for a random period of time whenever the compressor is called
to run. Supplemental heating shall be available to maintain the heating setpoint should the
compressors not meet the heating demand. There will be a 5-minute delay on the electric heater to
prevent short cycling and to allow the compressors time to meet the space requirements.
The heat pump (HP) is controlled by a manufacturer-provided control system while the Building
Automation System (BAS) will monitor the system controller. The HP will operate in the Occupied
and Unoccupied modes as follows:
OCCUPANCY MODES: The BAS will control the HP operation and space temperature setpoints
according to the following schedule:
HOBO data loggers will be used to measure unit's supply temperature, space temperature and space
humidity in the space served by the HP. The purpose of the logger is to record space temperature
and humidity over time and corresponding discharge air temperature. Results will show actual space
environmental conditions to compare with desired performance as well as occupied /unoccupied
temperature conditions. The deployment of logger should be for a minimum of 48 hours to record a
minimum of two (2) separate occupancy cycles.
SEQUENCE OF OPERATION
OPERATIONAL TREND LOGS
Unoccupied Mode
Occupied Mode
Heating Setpoint (°F, adj)
Sheet No. 1 of 3
G111_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
1
2
°F
% °F
°F °F
°F %
3
A am to pm
B (day) thru (day)
4
5
6
a 70 °F
b 74 °F
c 71.1 °F
d 67.9 °F
6
7
8 Yes X No
a 65 °F
b 67 °F
c 71.1 °F
d 57.6 °F
Heating Setpoint
Night setback Set point:
RH Sensor Set point:
Temp Sensor Set point:
Rm Logger # SA Logger #
Record the following information pertaining to the deployment of the data Logger.
Record the space sensor displayed "set points" for the HP.
SUMMER
Night setup Set point:
The occupied time of day schedule for the HP as displayed at the BMS Workstation is:
FUNCTIONAL PERFORMANCE TESTING
Actual Rm Temp
SPACE OPERATING STATUS
Room Temp @ Stat:
M F
6 6
Tests will be conducted "seasonally" during periods where considerable heating and
cooling is required to maintain set points. Functional performance of the HP will be
determined utilizing data logger results. Indicate below the season that the initial data
logger tests were run.
WINTER
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full cooling mode by adjusting the cooling set point of the room
sensor to 5 °F below the actual room temperature.
Room RH @ BMS:
Zone Temperature
Supply Air Temperature
Record the initial conditions prior to running the cooling test.
Heating Setpoint
Cooling Setpoint
The expected result is: The HP will be forced to full cooling, the compressor will be
energized in cooling and the BAS displayed room temperature will be above the room
sensor set point.
Was the HP found to be cooling as expected?
Cooling Setpoint
Special Observations:
____________________________________________________________________________
____________________________________________________________________________
________________________________________________________________
Sheet No. 2 of 3
G111_HP-2
REYNOLDS CONSULTING ENGINEERS
COMMISSIONING PROCEDURES
6
a °F
b °F
c °F
d °F
9
10
11 Yes No
a °F
b °F
c °F
d °F
12
A
B
13
14
Complete items "A" or "B" below in accordance with the season indicated above.
A data logger test will be conducted to prove season temperature maintenance.
Attach data logger results to final report.
Was the HP found to be heating as expected?
Were the summer occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? _____ Yes _______ No (confirmed by data
loggers)
Were the winter occupied and unoccupied temperatures and humidity indicated in
item #2 above maintained? ______ Yes _______ No (confirmed by data
loggers)
Special Observations:
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
_____________________________________________
The results of the performance testing for the Water Source Heat Pump are in
compliance with the project specifications and the BAS approved sequences.
Yes No
Cooling Setpoint
Record the initial conditions prior to running the heating test.
Heating Setpoint
Cooling Setpoint
Heating Setpoint
Zone Temperature
Supply Air Temperature
Zone Temperature
Supply Air Temperature
Force the HP to operate in the full heating mode by adjusting the heating set point of the room
sensor to 5 °F above the actual room temperature.
The expected result is: The HP will be forced to full heating, the compressor will be
energized in heating and the BAS displayed room temperature will be below the room
sensor set point.
Sheet No. 3 of 3
G111_HP-2