Post on 27-Mar-2015
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October 30, 2008
WECC Meetings
Marina Del Rey, California
ACE Diversity Interchange: Overview and Update
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• ADI stands for Area Control Error (ACE) Diversity Interchange.
• ADI is the pooling of individual Area Control Errors (ACE) to take advantage of control error diversity (sign differences associated with the momentary generation/load imbalances of each control or balancing area).
What is ADI?
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• By pooling ACE, participants are able to: Reduce control burden on individual control
areas through the ADI “equal share” allocation method;
Reduce generator movement; Reduce sensitivity to intermittent resource
output; and, Improve Control Performance and reduce
CPS2 violations.
Benefits of ADI
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What ADI is Not…
• An ancillary service;• A process that will impact the terms and
conditions of transmission or energy service;• An energy sale nor does it necessitate the
purchase of transmission;• A commercial activity;• A tool for making economic dispatch decisions;
or,• A burden on other areas.
ADI is a reliability tool
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• The ADI tool has value if the Participants are either held harmless or made better off.
• The ADI tool is designed to be safe for Participants and safe to the system.
• Transparent to all Participants.
• KISS – Keep it Simple S.....
ADI Project Philosophy
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Base Map Source: BPA “Challenge for the Northwest” White Paper April 2006, pg 24with red highlight additions by RSB – PacifiCorpOct 2006
“Virtual Control Area” for sharing Control Error
PACIPCNWE
BC Hydro System
Current Scope of ADI
• The initial Participating Control Areas are: Idaho Power Company NorthWestern Energy PacifiCorp – East PacifiCorp – West
• British Columbia Transmission Corporation is the “host.”
• Any control or balancing area operator located in the WECC and adjacent to and interconnected with one or more Participating Control Areas may join as a new ADI participant.
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• ACE Diversity Interchange Agreement (including the Technical Design) was executed November, 2006.
• Operating Group’s goal to “GO LIVE” March 31, 2007 was achieved; due to EMS commitments, Idaho Power Company’s “GO LIVE” date was June, 2007.
• On-going discussions regarding ADI (British Columbia stakeholders, CAISO, ColumbiaGrid, FERC, NWPP entities, Northwest Wind Integration Workgroup, PNW Regional Council, Pacific NW Security Coordinator, WECC, WestConnect members, Western Governors’ Association, Utility Wind Integration Group, CAISO, etc.).
ADI Project Implementation
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• Participating Control Areas include: Arizona Power Bonneville Power Administration British Columbia Transmission
Corporation (and the Host) Idaho Power Company NaturEner PS New Mexico Nevada Power NorthWestern Energy PacifiCorp – East PacifiCorp – West Puget Sound Energy Salt River Project Seattle City Light Sierra Pacific Tucson Electric PS Colorado (Xcel)
• Expanded evaluation (real-time screen shot) and reporting tools.
Second Phase of ADI
BC Hydro System
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• ADI Agreement was amended and restated June 15, 2007.
• ADI Operating Protocols were revised March 1, 2008 (relaxed the ADI Adjustment from 25 MW to 30 MW).
• ADI Operating Protocols revised August 29, 2008 (revised fn 13).
• Twelve new Participants have executed Exhibit E.
• Two RIGs purchased for the expanded effort.
• Phase 2 implementation is underway and is scheduled to “GO LIVE” in January 2009.
ADI Project Implementation (cont’d)
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• Minimum structure necessary to enable implementation.
• ADI is a reliability tool and a transmission function activity.
• ADI does not change or impact system operations or control area functions.
• ADI Host and Participating Control Area Operators together are “Parties”.
• Start-up Costs paid by Participating Control Area Operators.
• Criteria to allow for the addition of parties: Located in Western Interconnection Adjacent to one or more Participating Control Area
Operators Execute Exhibit E to the ADI Agreement
The ADI Agreement
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• Termination with 30 days notice; 90 days for Host.
• New Parties pay incremental costs (own system and implementation) and share (per control area) of annual maintenance budget.
• Agreement Group – approves budget; interprets Agreement; establishes management procedures; resolves disputes; 2/3 vote required for decisions.
• Operating Group – establish, implement and modify Implementation Protocols, operating parameters, suspension protocols, etc.; majority rules among members.
The ADI Agreement (cont’d)
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• Reliable operations of ADI assured by suspension protocols, e.g.,
– Transmission overloads
– Directed by Reliability Coordinator
– Frequency deviation
– Reserve sharing
• Participants can suspend or trigger a global suspension, e.g., Idaho Power triggered a global suspension on July 30, 2008 and a global resumption on August 28, 2008.
• Suspension defaults to normal (i.e., without ADI) operations; this provides a fail-safe back-up.
• Adjacency requirement between/among Participants ensures transmission connectivity.
ADI Design
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• Implementation Protocols (Exhibit A to the Agreement).
• ICCP Communication links are established between/among the Host and the Participating Control Areas.
• Time-stamped ACE values are sent to the Host every two seconds.
• The Host evaluates ACEs for diversity; if there is no diversity, there is no ADI adjustment.
• If there is diversity, time-stamped ADI adjustments are calculated and sent back to the Participating Control Area Operators.
• The Participating Control Areas control to their ADI-adjusted ACEs and apply the adjustments in their CPS reporting.
• If either the Host or a Participant suspends, then the affected party(s) revert to unadjusted ACEs for control and CPS reporting.
• ACE data and causes for suspension are broadcast to all participants ensuring transparency and supporting evaluation.
ADI Design (cont’d)
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ADI Introduction to Existing Operations
Total of about 8 sec delay:
MeteredNet
Interchange
ScheduledNet
Interchange
FreqACECalcLogic
GenControlLogic
GenPulses
GenDispatch
OriginalACE
SendACE
to Host
Net & Allocate
ACE
SendBack toUtility
ModifiedACE
MeteredNet
Interchange
ScheduledNet
Interchange
FreqACECalcLogic
GenControlLogic
GenPulses
GenDispatch
OriginalACE
SendACE
to Host
Net & Allocate
ACE
SendBack toUtility
ModifiedACE
2 sec. delay EMS/AGC combined
2 sec. delay EMS/AGC combined
2 sec. delay 2 sec. delay
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Data Sent by Each Participant to Host
• Raw ACE. Consider interchange; ATEC; and, frequency terms
• Time-stamp of ACE calculation (seconds from midnight Universal Time Clock).
• Participant reference.
• Participant is on (Status 2) or is not on (Status 1).
• Does/Does Not Request Global Suspension.
• Participant Suspension Number or Global Suspension number.
• Positive ACE Integrated Adjustments (previous hour).
• Negative ACE Integrated Adjustments (previous hour).
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Data Sent by Host to each Participant and Broadcast
• ADI Adjustment.
• Timestamp (seconds from midnight UTC).
• Host Confirmation – Participant is on (Status 2) or is not on (Status 1).
• Indication that Global Suspension is/is not in effect.
• Global Suspension number or Participant Suspension number.
• Integrated Adjustments (+/-).
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ADI Equal Share Allocation Method
• Design Objective: minimize generator movement.
• Methodology:
– Determine ADI Limit.
– Raw ACEs compared.
– Net ACE calculated.
– Majority and Minority Groups determined.
– Majority Group’s aggregated ACE zeros-out Minority Group’s individuals ACEs.
– Minority Group’s aggregated ACE is applied in equal shares to the Majority Group’s individual ACEs to the extent possible (no sign change allowed).
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PCA Raw ACE ADI Adjustment Adj. ACE A -46 MW +46 MW 0 MW B -40 MW +40 MW 0 MW C +60 MW -46 MW 14 MW D +40 MW -40 MW 0 MW
Net: 14 MW 14 MW
• No ADI Limit is imposed in this example.• If there is no diversity, there is no adjustment to ACE.• Summed values of Raw ACEs and ADI-adjusted ACEs are equal. • In this example, the “Majority Group” areas have positive ACE
values (C and D, consistent with the Net Error); the “Minority Group” areas have negative ACE values (A and B).
• ADI Adjustments will not force a change in sign (+/-) for a participant.
ADI Equal Share Example
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ADI Equal Share Example w/ 15 MW Limit
PCA Raw ACE Maj. ADI Adj Min. ADI Adj A 20 15 -8.75 B - 5 - 5 5 C 10 10 -8.75 D -25 -15 15 E 20 15 -8.75 F 10 10 -8.75 G -20 -15 15Net ACE: 10 ACE(residual):15 50 -35 Net Adj: -35 35Net ACE: 10 25 -15
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ADI Limitations
• 30 MW Limit (originally, the limit was 25 MW) ADI adjustment limits ensure fail-safe implementation
• Diversity must exist An ADI adjustment will be calculated only if there is
ACE diversity (positive and negative values) among participants.
• No participant will be worse off An ADI adjustment will never make ACE worse, i.e., it
will always move ACE toward zero or will have no impact.
• Right to suspend Participants have the right to ignore (suspend) ADI
adjustments; suspension means that participants control to original ACE (status quo operations) and that participant’s ACE is excluded from the ADI calculation.
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ADI Suspension Protocols
• Host Will Suspend: If ADI system fails. If participant exceed time skew limits (10 seconds). If fewer than 3 control areas are participating.
• Participants Will Suspend (manually or automatically): If NWPP Reserve Sharing invoked. If a frequency deviation (+/- 0.3 hertz) If directed by Reliability Coordinator -- OTC violation is in
progress or expected.Trigger two ADI “systems” if concerns about the COI.
If there are two, consecutive CPS 2 violations. If AGC is paused or not in tie-line bias control. If other concern(s) arise.
• Suspension Protocols posted on Participants’ OASIS.
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Revised ACE Equation ACE = ({NIA+ADI}-NIS) – 10B(FA-FS) – IME + ATEC
• NIA Net actual interchange in megawatts• NIS Scheduled net interchange in megawatts
Includes dynamic schedules Does not include bilateral schedules to correct inadvertent interchange accumulation
• B Frequency Bias Setting (MW/0.1 Hz) for the balancing authority The constant factor 10 converts the frequency setting to MW/Hz
• FA Actual system frequency in Hertz• FS Scheduled system frequency in Hz
The WECC Time Monitor can establish a different value of scheduled system frequency during the manual time error correction periods
• IME Value (in MW) to compensate for known equipment error Attempt should be made to keep this term at zero by correcting known errors
• ATEC The WECC automatic time error correction Only for AGC control Not included for NERC performance reporting Based on accumulated inadvertent separately tracked for on- and off-peak time periods,
WECC time error, a control areas bias setting relative to the rest of the WECC bias settings, a constant for return initially set at 2 hours and limited to no less than 20% of the control area’s frequency bias setting and L10
This is the mechanism for returning inadvertent interchange within WECC• ADI ACE diversity interchange term which adjusts ACE values when enabled
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NERC/WECC Standards Verified
• NERC: BAL-001-0 (Real Power Balancing Authority) Defines the term L10 in terms of the each Balancing Authority’s
obligation to operate its average ACE for at least 90% of clock ten-minute periods (six non-overlapping periods per hour) during a calendar month within L10 limits
• NERC: BAL-004-0 Time Error Correction
• NERC: BAL-006-0 (Inadvertent Interchange) Performance Standards Reference Document Inadvertent Interchange Accounting Document
• WECC: INT-BPS-008-1 Bilateral Payback Policy Procedure for Time Error Control Description of Control Error Calculation
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ADI Evaluation: Net Adjustments
• Net ADI Adjustment
(Positive + Negative)
Idaho 1,733 MWh (0.14 aMW)
NorthWestern -1,207 MWh (0.09 aMW)
Pac-East -4,488 MWh (0.37 aMW)
Pac-West 2,205 MWh (0.18 aMW)
Aggregate -1,757 MWh (0.14 aMW)
BCTC Analysis.
Data period: June 21, 2007 – October 19, 2008.
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ADI Evaluation: Absolute Adjustment
• Applied ADI Adjustments
(Sum of Absolute Value)
Idaho 1,180 MW-days ( 2.3 aMW)
NorthWestern 865 MW-days ( 1.7 aMW)
Pac-East 1,075 MW-days ( 2.1 aMW)
Pac-West 2,300 MW-days ( 4.5 aMW)
Aggregate 5,420 MW-days (10.6 aMW)
BCTC Analysis.
Data period: June 21, 2007 – October 19, 2008.
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ADI Evaluation: Standard Deviation of ACEs
2006 2007January 16.7 15.8February 16.3 14.5March 14.9 15.6April 21.2 13.1May 18.6 12.5June 21.3 15.5July 25.9 13.8August 15.6 13.1September 14.6 13.2October 14.8 16.0November 15.7 15.0December 14.6 16.6
NorthWestern Energy Analysis.Data period: Comparing 2006 and 2007.
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ADI Evaluation: Generator Wear-and-Tear• Reduced Generator Movement• Accumulated Affect on Generator Controls
Sum of pulse widths (ms) of control pulses issued by AGC reduced by half with ADI:
Criteria:o Suspension was at least one hour; and,o Control action not influenced by planned hourly change in Net
Scheduled Interchange.sum of pulse
widths– 60 minutes prior to ADI Suspension 342,664 ms– 60 minutes of ADI Suspension 620,447 ms– 60 minutes after ADI Resumes 342,211 ms
Idaho Power Company Analysis.Data period: September 3, 2007 – January 21, 2008.
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ADI Evaluation: CPS-1 & CPS-2; Violations
• CPS-1 A statistical measure of Area Control Error (ACE)
variability and its relationship to frequency erroro Provides a frequency-sensitive evaluation of how well the
respective area has met its demand requirementso Measure based on a 12-month rolling average
• CPS-2 A statistical measure designed to limit unacceptably
large net unscheduled power flowso Provides an oversight function to limit excessive
unscheduled power flows that could result from large ACE values
o Determined monthly based on the percentage of time the 10-minute average ACE did not exceed L10
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ADI Evaluation: CPS2PacifiCorp - East
91
92
93
94
95
96
97
98
99
2007 - 2008
CP
S 2
Sc
ore
s (
%)
with ADI
w/o ADI
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ADI Evaluation: CPS2 ViolationsPacifiCorp - East
0
50
100
150
200
250
300
CP
S 2
V
io
la
tio
ns
w ith ADI
w /o ADI
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ADI Evaluation: CPS2PacifiCorp - West
86
88
90
92
94
96
98
100
CP
S 2
Sc
ore
s (
%)
w ith ADI
w /o ADI
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ADI Evaluation: CPS2 ViolationsPacifiCorp - West
0
50
100
150
200
250
300
350
400
450
CP
S 2
V
io
la
tio
ns
w ith ADI
w /o ADI
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ADI Evaluation:Magnitude of ADI Adjustment
-200-150
-100-50
050
100150
200
8030
-20
-70
0
5000
10000
15000
20000
25000
30000
35000
40000
Numberof
Points
Net Adjusted ACE
ADI Adjustment
Net Adjusted ACE compared with ADI Adjustment
35000-40000
30000-35000
25000-30000
20000-25000
15000-20000
10000-15000
5000-10000
0-5000
number of 2 second points
2158200
IPC Analysis: Four ParticipantsData Period: 8/11 – 9/30/2008
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ADI Evaluation:Magnitude of ADI Adjustment
-20.0
-15.0
-10.0
-5.0
0.0
5.0
10.0
15.0
20.0
25.0
30.0
1 101 201 301 401 501 601 701 801 901 1001 1101
Hours
MW
Ave
Neg Avg
Pos Avg
•IPC Analysis: Four ADI Participants•Data Period: 8/11 – 9/30/2008
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ADI Impact on Reporting
• ADI implemented
The system adjusted ACE value is used for real power balancing control performance reporting.
• ADI not implemented
The system unadjusted ACE value is used.
• Keep in mind performance reporting does not take into account the WECC ATEC term when determining compliance.
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ADI Impact on Inadvertent
NII = NIA – NIS
• Each Balancing Authority measures primary inadvertent interchange in megawatt-hours and returns it to or receives it from the transmission system as a whole through the ATEC term in the ACE equation.
• Represents the degree of “leaning on the tie” The objective is to keep this term relatively small Overtime, this quantity should move toward zero
• WECC does not allow bilateral return of inadvertent accumulation since the adoption of ATEC (Feb. 2003).
• The inadvertent impact of ADI should be more canceling than cumulative in nature.
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Suspension History
• Total Time Suspended: 0.84% (over seven months)65% Minimum Participants Requirement Not Met35% NWPP Reserve Sharing Event
• No Suspensions: Manually by Host Manually by Participant For frequency deviation Directed by Reliability Coordinator
BCTC Analysis.Data period: June 21, 2007 – January 22, 2008.
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ADI Expanded Evaluation/Reporting
• Web-based ADI Screen Shot (based upon MISO’s ADI program)
RAW ACE
Majority Group; Minority Group
ADI Adjustments (Minority Group)
Suspensions
• ADI Monthly Reporting
Net ADI Adjustments
Applied Adjustments
Suspensions
• Individual Participants’ Evaluation
CPS with and without ADI
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Presentation Conclusion
• Questions/Suggestions/Input