To: All Vendors Bidding on The College of New Jersey Bliss ...• Specification Section 230130-HVAC...
Transcript of To: All Vendors Bidding on The College of New Jersey Bliss ...• Specification Section 230130-HVAC...
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To: All Vendors Bidding on The College of New Jersey
Bliss Hall Ventilation Upgrades Project From: Roselle Horodeski Finance & Business Services Date: May 1, 2014
ADDENDUM NO. 1 ISSUE DATE: May 1, 2014 REFERENCE: The College of New Jersey Bliss Hall Ventilation Upgrades
AB140025 Date of Original Bidding Documents: April 13, 2014 INTENT: This Addendum forms a part of the Contract Documents and modifies the original
Bidding Documents and Prior Addenda, if any, as identified above. Acknowledge receipt of this Addendum in the space provided on the Bid Form. Failure to do so may subject Bidder to disqualification.
CLARIFICATIONS
• Specification Section 230130-HVAC Air-Distribution System Cleaning Replace all occurrences of NADCA ACR 2006 with NADCA ACR 2013.
• The main AHU’s and associated duct work shall be cleaned to the NADCA ACR 2013 cleaning requirements, including final inspection and testing.
• The contractor, or subcontractor, as applicable, shall possess the qualifications as listed in
Specification Section 230130-HVAC Air-Distribution System Cleaning. Contractor is to include certification with their bid.
• Included in the scope of work is the purchase and installation of 170 Traco Sash Limit Stops
with appropriate tamper proof screws. See attached.
• The contractor is responsible to move any furniture/bookcases/miscellaneous items currently located where work needs to take place in order for them to accomplish their work.
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• Contractor shall use TriDim Filter Corporation Tri-Dek® 3/67 2-ply panel and link filters, or equivalent, replacement air filters on all units. See attached.
REVISED DRAWINGS Revised Drawings M-01.1, M-2.1 and M-2.2 are attached and are to be included as part of the contract documents. Attachments: Traco Drawing No. 30-1405-Sash Limit Stops TriDim Filter Corporation Product Brochure Pre-Bid Sign-In Sheet Drawing M-0.1 dated 4/30/2014 – Cover Sheet Drawing M-2.1 dated 4/30/2014 – First Floor Chilled Water Piping Plan Drawing M-2.2 dated 4/30/2014 – Second Floor Chilled Water Piping Plan END OF ADDENDUM NO. 1
TRI-DEK® 3/672-PLY PANEL AND LINK FILTERS
INN
OVA
TIVE
SO
LUTI
ON
S
TRI-DEK® 3/67THE BUDGET STRETCHER
Eliminates BypassKeeps Coils CleanSaves EnergyMold/Moisture ResistantReduced Filter Failure
Tri-Dek 3/67 2-Ply Panel and Link Filters offer the solution you need for better efficiency and helps to relieve the increased pressures on your budget.
ELIMINATES BYPASSTraditional cardboard framed filters allow dirty, unfiltered air to pass around the filter causing contamination on coils and the HVAC duct as well as allowing contaminates into the building. Studies have documented that even a thin film on the coils can have a huge impact on energy consumption - up to a 37% increase. In addition to the energy savings the contaminant in the HVAC conveyance system can cause long term systemic problems that can be very expensive to abate.
MOLD/MOISTURE RESISTANTCardboard framed filters are vulnerable to the effects of moisture, even if they have been treated. Moisture can cause premature filter failure - the frame becomes wet and will buckle under the pressure of the system (as pictured top left). If the frame remains wet and conditions are correct mold and other microbials can easily grow on the filter media and frame - see photo lower left. The TRI-DEK 3/67 uses no cardboard but relies on an internal wire ring for support, this wire ring is sealed between two layers of synthetic media. This creates a filter resistant to moisture/mold that will save you money by reducing costly abatement.
Link FilterCardboardFramed Filter
Dirty Coil
Moisture Damage
Microbial Growth
Cutaway View of Panel
TRI-DEK 3/67THE BUDGET STRETCHER
Longer Service LifeDepth Loading MediaEnergy SavingsReduced Shipping/StorageReduced Labor
LONGER SERVICE LIFETRI-DEK offers a unique depth loading media that allows the filter to manage the dirt. Most filters are constructed of media that surface loads reducing their service life and causing high resistance to airflow across the filter after a short period of time. This high resistance can cause dramatic increases in the related energy cost. TRI-DEKʼs media experiences a less dramatic increase in the resistance since it depth loads. TRI-DEK media is composed of different deniers of media allowing for larger particles to be captured on the first layer and smaller particles are filtered as the air passes through the filter media. Depth loading reduces energy cost and allows for a longer service life. The longer service life saves money in a variety of ways ... on the number of filters you need to buy per year, labor cost, disposal cost, etc.
REDUCED SHIPPING/STORAGETRI-DEK is packaged 24 per case rather than 10 or 12 per case. This can safe additional money as reduced storage space is needed and can reduce freight cost by up to 50%. Another huge benefit is reducing the number of trips to and from the air handler the HVAC technician has to make transporting filters.
AIRFLO
W
24 TRI-DEK Filters 24 Cardboard Framed Filters
Photo of left is 2 pleats -
on right a Tri-Dek Link of 6 panels
PRODUCT SPECIFICATIONS
Brochure # 400-1
Revision: 07/2010
TRI-DIM FILTER CORPORATIONP.O. BOX 466 • 93 INDUSTRIAL DRIVE
LOUISA, VA 23093(540) 967-2600 • FAX: (540) 967-2835
EMAIL: [email protected] • Website: www.tridim.comT O L L F R E E 1 - 8 0 0 - 4 5 8 - 9 8 3 5
Tri-Dim Filter Corporation is committed to continual product development – all descriptions, specifications and performance data are subject to change without notice.
Tri-Dim products are manufactured to exacting criteria - there can be a ±5% variance in filter performance. Tri-Dim® and Tri-Dek® are Registered Trademarks of Tri-Dim Filter Corporation.
PLEASE RECYCLE - This paper may not be recyclable in your area if facilities do not exist. This brochure is printed on paper that is certified by the Sustainable Forestry Initiative (SFI) - for more information go to www.sfiprogram.org.
0
0.1
0.2
0.3
0.4
187 280 374 467
Intital Resistance vs. Airflow
0
20
40
60
80
100
.35 .62 1.14 1.88 3.46 6.2
FPM
“ W.G
.
Microns
Rem
oval
Effi
cien
cy -
%
Local Representation:
! MEDIA! ! Synthetic, dual denier
! FRAME ! ! Galvanized Wire
! SEAL !! ! Thermally Generated (Standard sizes)
! RESISTANCE
!! ! ! ! Recommended Final Resistance = 1.0” WG
! EFFICIENCY !
! ! ! ! Average Efficiency vs. Particle Size
MEETS ANSI/UL-900 REQUIREMENTS
No. Drawing Title Issues / Revisions
For R
eview
2/11
/2014
For C
onstruction
3/7/2014
Adde
ndum
14/30
/2014
MECHANICAL
M‐0.1 COVER SHEET X X X
M‐0.2 MECHANICAL SPECIFICATIONS X X
M‐1.0 BASEMENT HVAC PLAN X X
M‐1.1 FIRST FLOOR HVAC PLAN X X
M‐1.2 SECOND FLOOR HVAC PLAN X X
M‐1.3 THIRD FLOOR HVAC PLAN X X
M‐1.4 ROOF HVAC PLAN X X
M‐2.0 BASEMENT CHILLED WATER PIPING PLAN X X
M‐2.1 FIRST FLOOR CHILLED WATER PIPING PLAN X X X
M‐2.2 SECOND FLOOR CHILLED WATER PIPING PLAN X X X
M‐3.0 MECHANICAL SCHEDULES X X
M‐3.1 HVAC RISER DIAGRAM X X
M‐4.0 MECHANICAL DETAILS X X
M‐5.0 BMS CONTROLS DETAILS X X
project
Confidential and Proprietary / ©DLB Associates 2014
TCNJ ‐ BLISS HALL2000 PENNINGTON ROADEWING, NJ 08628
ADDE
NDU
M 1 ‐ AP
R 30, 2014
265 Industrial Way West, Eatontown, N.J. 07724
dlb associatesCONSULTING ENGINEERS, P.C.
John LanniQuestions For DLB Call:Phone: 732‐774‐2000DLB Project ID: 11803
This Drawing Is The
Prope
rty Of D
LB Associates Co
nsultin
g En
gine
ers, PC. It W
as Prepa
red Exclusively For T
his Particular Project And
Is Limite
d To
This P
roject Only. U
nautho
rized
Rep
rodu
ction Or O
ther Use Of These Drawings Or Ideas Is Prohibited.
Last Saved: N:\11\118\11803\11803M‐0.1.dwg , 4/30/14 at 2:32 PM By KDANGELO ‐ Last Printed: 4/30/14 at 2:32 PM By D'Angelo, Kurt
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A B C D E F G H I J K L M N O P Q
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ITEM DATE ISSUE DESCRIPTION ITEM DATE ISSUE DESCRIPTION
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04/30/2014 11803M‐0.1
seal
‐ 03‐07‐2014 ISSUE FOR CONSTRUCTION
04‐30‐2014 ADDENDUM 1
THE COLLEGE OF NEW JERSEYBLISS HALL VENTILATION UPGRADES
2000 PENNINGTON ROADEWING, NJ 08628
ADDENDUM 1
AERIAL IMAGE KEY PARTICIPANTS & THEIR ROLES
DOCUMENT ORGANIZATION
SITE LOCATION
Owner
The College Of New Jersey2000 Pennington RoadEwing, NJ 08628
Consultant
DLB Associates, PC265 Industrial Way WestEatontown, NJ 07724Contact: John LanniTel: (732) 927‐5006
1
Drawing Organization
The Primary Organization And Order Of The Project Drawing Set Is Determined By The Trade. The PrefaceLetter(s) Of The Drawing Name Indicates The Trade.
1. General (G Series)2. Mechanical (M Series)3. Electrical (E Series)
Drawing Sequence
1. Within Each Trade, Drawings Start With Overview "Big Picture" Information, Then Plan Views, FollowedBy All Other Pertinent Information. Where Effective, Supplemental Information Is Included Directly OnThe Plan View Drawings To Improve The Reader's Understanding.
Miscellaneous
1. The Terms 'Sheet', 'Plan', And 'Drawing' Are Used Interchangeably.
2. For Items That Are Plans, Details, And Other Graphic Items, Titles Are At The Bottom Of The ItemDescribed. For Items That Are Predominately Text Such As Schedules, Titles Are At The Top Of The ItemDescribed.
3. Shading Of An Area Often Is Used To Emphasize An Area To The Reader. Some Of The PossiblePurposes Of This Emphasis Can Be:
A. Identify Major Pieces Of Equipment
B. Defining A Topics Boundary Without Conflicting With Other Linework
C. Help To Emphasize The Existence Of A Part Plan Of The Area
D. Differentiate Line Work In Congested Areas
4. Printing Of The Plans Is Often Reduced, So A Graphic Scale Is Provided On Each Sheet.
How Notes Are Used
1. General Notes Are One Or More Notes In List Form Which Are Not Indicated Specifically On A Plan,Section, Elevation, Or Detail.
2. Key Notes Are Used In Lieu Of Standard Notes Where They Improve Readability, Key Notes AreGathered Together And Listed Collectively On The Drawings On Which They Are Located.
Addenda & Revisions
Some Addenda And Revisions Are Identified On The Drawings Using A . The Number In The TriangleLinks To The Revision Block In The Title Block Section.
Sometimes The Most Recent Change Is Clouded To Provide Increased Clarity.
SCOPE OF WORK
DESIGN CRITERIA
Project Description
The Bliss Hall Building Has Been Experiencing Conditions Of High Relative Humidity During The SummerMonths For Several Years. The High Relative Humidity Has Resulted In Visible Moisture Around WindowsAnd At The Fan Coil Supply Registers. The Moisture Problem Has Been Severe Enough To Warrant TheDeployment Of Numerous Portable Dehumidifier Units To Alleviate These Symptoms. In It's Current State,The Existing HVAC System Cannot Provide Reheat For Proper Dehumidification, Especially During PeriodsOf Low Cooling Loads.
To Correct This Problem, The Fan Coil Outdoor Air Intakes Will Be Blanked Off And The Windows Are To BeMade Inoperable. New Ductwork Will Be Installed To Deliver Ventilation Air To The Occupied Spaces OnThe First And Second Floors From The (2) 100% Outside Air Handling Units In The Basement. In AdditionTo The New Ductwork, New Communicating Thermostats With Dry Bulb Temperature And RelativeHumidity Sensing Capability Will Be Installed In The Affected Spaces. These Sensors Will Modulate The FanCoil Units To Meet The Space Load. The Communicating Thermostats Will Be Tied Together On A BACnetBus And Tied Into The Campus EBI Network.
Scope
The Following Is A Brief Scope Of The Work For This Project (Not Intended To Be All Inclusive):
1. Perform A Detailed Survey Of The Area Of Work To Fully Understand All Existing Conditions.
2. Blank Off The Outdoor Air Intakes On Each Fan Coil Unit.
3. Make All Windows Inoperable. (By TCNJ)
4. Core Holes Through The First And Second Floor Slabs For Installation Of The Ventilation Air DuctShafts.
5. Install Ductwork From Air Handling Units To The Occupiable Spaces On The First And Second Floors.
6. Install Volume Dampers And Supply Grilles For Each Space On The First And Second Floors.
7. Adjust Volume Dampers On All Floors According To Airflow Indicated On The Floor Plan Drawings.
8. Construct Stud Wall Assemblies Around New Duct Shafts, Including Drywall, Taping, Spackling, AndFinish Painting. Rework Ceiling / Lay‐In Ceiling Grid Around New Stud Wall Assembly.
9. Install Communicating Thermostats With Dry Bulb Temperature And Relative Humidity SensingCapabilities. Connect New Thermostats On A BACnet Bus And Tie Into Campus EBI System.
10. Set The Controls On The Fan Coil Units For Targeted Indoor Conditions.
11. Remove And Reinstall Acoustical Ceiling Tiles As Required.
12. Perform Thorough Daily Cleanup In All Areas Of Work.
13. Perform Complete Pre‐Construction Balance Of The Hot Water, Chilled Water, AHU‐1 And AHU‐2Systems To Report Existing Conditions Per Specifications.
14. Perform Complete Post‐Construction Balance Of The Hot Water, Chilled Water, AHU‐1 And AHU‐2Systems Per Specifications.
15. Reinsulate All Existing Chilled Water Supply And Return Piping Throughout Building. (Insulation To BeRemoved By Others)
16. Reinsulate All Existing Cooling Coil Condensate Drain Pipe Throughout Building. (Insulation To BeRemoved By Others)
17. Reinsulate All Heating Hot Water Piping Throughout Building. (Insulation To Be Removed By Others)
18. Revise AHU‐1 And AHU‐2 Control Logic To Suit Updated Sequence Of Operation.
19. Coordinate Controls Integration To The Campus EBI System. Contact Lou Speziale With AdvancedSolutions Sales At 856‐437‐1844.
General
1. Entire Installation Shall Comply With All Local And State Codes And Other Authorities HavingJurisdiction. Each Contractor / Subcontractor Shall Secure, Pay And Schedule All Required Permits,Fees, And Inspections Required For His Work.
Applicable Codes And References
1. International Building Code, 2009 Edition.
2. International Mechanical Code, 2009 Edition.
3. ASHRAE 90.1 ‐ Energy Standards, 2007 Edition.
4. ASHRAE Handbooks ‐ American Society Of Heating, Refrigerating And Air Conditioning Engineers, Inc.
5. SMACNA Handbook For Duct Construction.
6. National Fire Protection Association #13, Latest Edition.
7. National Standard Plumbing Code, 2009 Edition.
8. National Electrical Code, 2011 Edition.
All Local & State Amendments Shall Be Included In The Project Requirements.
DRAWING LIST
COVER SHEET
AS SHOWN KJD MH
M‐0.1
BLISS HALL
PROJECT LOCATION
SCOPE OF WORK (CONT.)
1 2 4
A
B
C
5 6 7
A.8
C
3
1"
1‐1/4" 3/4" CHWS&R UP3/4" HWS&R UP
CD
CDCD
CDCD
CD
CD
CD CD CD
CDCD
CD
CD
CDCD
CD
CD
CD
TYP1
TYP1
CHWS
CHWS
HWS
HWR
CHWS
CHWR
HWS
HWR
CHWS
CHWR
HWS
HWR
HWS
HWR HWSCHWRCHWS
CHWSCH
WR
HWS
HWR
CHWS CHWRHWS
HWR
CHWSCH
WR
HWSHWR
CHWS
CHWR
HWSHWR
3/4"
1‐1/4"
1‐1/2"
2"
2"
1"
1‐1/4"
1‐1/2"
4"
3"
2" CHWS&R UP
1‐1/2" HWS&R UP
1‐1/4"
1"
HWR
CHWSCHWR
CD
3/4"
1"
1‐1/2"
2" CHWS&R UP 1‐1/4" HWS&R UP
1" 1‐1/4"
2"
3/4"
3/4"
2‐1/2" CHWS&R UP/DN
2" HWS&R UP/DN
TYP1
TYP1
TYP1
TYP1
TYP1
TYP1
TYP1
TYP1
TYP1
2
2
2
2
2
2
2
project
Confidential and Proprietary / ©DLB Associates 2014
TCNJ ‐ BLISS HALL2000 PENNINGTON ROADEWING, NJ 08628
ADDE
NDU
M 1 ‐ AP
R 30, 2014
265 Industrial Way West, Eatontown, N.J. 07724
dlb associatesCONSULTING ENGINEERS, P.C.
John LanniQuestions For DLB Call:Phone: 732‐774‐2000DLB Project ID: 11803
This Drawing Is The
Prope
rty Of D
LB Associates Co
nsultin
g En
gine
ers, PC. It W
as Prepa
red Exclusively For T
his Particular Project And
Is Limite
d To
This P
roject Only. U
nautho
rized
Rep
rodu
ction Or O
ther Use Of These Drawings Or Ideas Is Prohibited.
Last Saved: N:\11\118\11803\11803M‐2.1.dwg , 4/30/14 at 2:23 PM By KDANGELO ‐ Last Printed: 4/30/14 at 2:32 PM By D'Angelo, Kurt
filename
title
scale checked bydrawn by date
dwg. no.
24x36
A B C D E F G H I J K L M N O P Q
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ITEM DATE ISSUE DESCRIPTION ITEM DATE ISSUE DESCRIPTION
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04/30/2014 11803M‐2.1
seal
‐ 03‐07‐2014 ISSUE FOR CONSTRUCTION
04‐30‐2014 ADDENDUM 1
FIRST FLOOR CHILLED WATER PIPING PLAN
AS SHOWN KJD MH
M‐2.1
1/8"=1'‐0" 2' 4' 8' 16'Drawing:Detail:
Scale: NFIRST FLOOR CHILLED WATER PIPING PLAN01M‐2.1
1. Pipe Sizing And Routing Shown Is From Original Design Drawings And Differences May Existing AsInstalled. Contractor To Perform A Detailed Survey Of All Existing Conditions.
GENERAL NOTES
1.
2.
Replace All Existing Chilled Water System, Cooling Coil Condensate And Heating Hot Water PipeInsulation. Field Verify All Pipe Sizing And Routing. (Removal Of Existing Insulation By Others)
Open Piping Chase For Removal Of Existing Insulation (By Others). Insulate All Chilled Water System, HotWater System, And Cooling Coil Condensate Piping. Close Chase To Pre‐Construction State IncludingDrywall, Framing, Tape, Spackle, Finish, Painting, Cove Molding, Etc. As Appropriate.
KEY NOTES (SYMBOLS , , ETC.)1 2
EX Existing
PARTIAL SYMBOL LIST PARTIAL ABBREVIATION LIST
Identifier Identifier DescriptionDescription
Existing Chilled Water SupplyPiping
Existing Chilled Water ReturnPiping
Existing Condensate DrainPiping
Existing Heating Hot WaterSupply Piping
Existing Heating Hot WaterReturn Piping
Connection To Fan Coil Units
CD
CHWR
CHWS
HWS
HWR
1 2 4
A
B
C
5 6 7
A.8
C
3
3/4" 1‐1/2"
2" CHWS&R DN
2‐1/2" CHWS&R DN
3/4" CHWS&R DN3/4" HWS&R DN
CD
CDCD
CD
CDCD
CD
CDCD
CD
CD
CD
CDCD
CD
CD
1
TYP1
TYP1
TYP1
TYP1
HWR HWSCHWR CHWS
HWRHWS
CHWSC
HWR
HWRHWS
CHWRCH
WS
CHWSCH
WR
HWS
HWR
CHWSCHWR
HWSHWR
CHWS
CHWR
HWS
HWR
CHWS
CHWRHWS
HWR
CHWS
CHWR
HWS
HWR
HWSHWRCHWSCHWR
1"
1‐1/4"
1‐1/4"2"
2" CHWS&R DN 1‐1/4" HWS&R DN
1" 1‐1/4"
1‐1/4"1‐1/2"
2"
2"
1‐1/2"
2" CHWS&R DN1‐1/2" HWS&R DN
1‐1/2" 1"
1‐1/4"
1‐1/2"
1‐1/4"
1‐1/2"
1‐1/4"
2"
1‐1/2"
1"
1‐1/4"
2"
2"2‐1/2"
3/4"
2" HWS&R DN1" CHWS&R DN
1" HWS&R DN
TYP1
TYP1
TYP1
TYP1
TYP1
TYP12
2
2
2 2 2
2 2
2
project
Confidential and Proprietary / ©DLB Associates 2014
TCNJ ‐ BLISS HALL2000 PENNINGTON ROADEWING, NJ 08628
ADDE
NDU
M 1 ‐ AP
R 30, 2014
265 Industrial Way West, Eatontown, N.J. 07724
dlb associatesCONSULTING ENGINEERS, P.C.
John LanniQuestions For DLB Call:Phone: 732‐774‐2000DLB Project ID: 11803
This Drawing Is The
Prope
rty Of D
LB Associates Co
nsultin
g En
gine
ers, PC. It W
as Prepa
red Exclusively For T
his Particular Project And
Is Limite
d To
This P
roject Only. U
nautho
rized
Rep
rodu
ction Or O
ther Use Of These Drawings Or Ideas Is Prohibited.
Last Saved: N:\11\118\11803\11803M‐2.2.dwg , 4/30/14 at 2:23 PM By KDANGELO ‐ Last Printed: 4/30/14 at 2:32 PM By D'Angelo, Kurt
filename
title
scale checked bydrawn by date
dwg. no.
24x36
A B C D E F G H I J K L M N O P Q
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ITEM DATE ISSUE DESCRIPTION ITEM DATE ISSUE DESCRIPTION
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04/30/2014 11803M‐2.2
seal
‐ 03‐07‐2014 ISSUE FOR CONSTRUCTION
04‐30‐2014 ADDENDUM 1
SECOND FLOOR CHILLED WATER PIPING PLAN
AS SHOWN KJD MH
M‐2.2
1/8"=1'‐0" 2' 4' 8' 16'Drawing:Detail:
Scale: NSECOND FLOOR CHILLED WATER PIPING PLAN01M‐2.2
1. Pipe Sizing And Routing Shown Is From Original Design Drawings And Differences May Existing AsInstalled. Contractor To Perform A Detailed Survey Of All Existing Conditions.
GENERAL NOTES
1.
2.
Replace All Existing Chilled Water System, Cooling Coil Condensate And Heating Hot Water PipeInsulation. Field Verify All Pipe Sizing And Routing. (Removal Of Existing Insulation By Others)
Open Piping Chase For Removal Of Existing Insulation (By Others). Insulate All Chilled Water System, HotWater System, And Cooling Coil Condensate Piping. Close Chase To Pre‐Construction State IncludingDrywall, Framing, Tape, Spackle, Finish, Painting, Cove Molding, Etc. As Appropriate.
KEY NOTES (SYMBOLS , , ETC.)1 2
EX Existing
PARTIAL SYMBOL LIST PARTIAL ABBREVIATION LIST
Identifier Identifier DescriptionDescription
Existing Chilled Water SupplyPiping
Existing Chilled Water ReturnPiping
Existing Condensate DrainPiping
Existing Heating Hot WaterSupply Piping
Existing Heating Hot WaterReturn Piping
Connection To Fan Coil Units
CD
CHWR
CHWS
HWS
HWR