Workshop on Future AS in ERCOTERCOT Public 1
Future Ancillary Services (AS) Workshop
Joel Mickey, Dan Woodfin, Julia Matevosyan, Sandip Sharma, Fred Huang, Sai Moorty
Workshop on Future AS in ERCOTOctober 24, 2013
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Agenda for Today’s Workshop
• Introduction– Review the goal of today’s Workshop
• Review proposed Structure and Process to discuss, explore and develop a new framework for Ancillary Services
• ERCOT presents the Concept Paper– Overview of the Future Services (approximately 30 slides)
– Preliminary Thoughts on Market and Transition Details (approximately 10 slides)
• Summarize Today’s Highlights and Action Items
• Request written comments be sent to ERCOT by COB November 1
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Overview of Revised Ancillary Services (AS) Framework Proposal
Dan Woodfin, Julia Matevosyan, Sandip Sharma, Fred Huang
Workshop on Future AS in ERCOTOctober 24, 2013
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Why “Ancillary” Services
• One of the fundamental roles of system operations is to maintain frequency in a tight band around 60 Hz– Accomplished by constantly balancing generation and load– Important because many devices are designed to operate at a
particular speed which is driven by the frequency of the power system
• The balancing of generation and load is generally accomplished in ERCOT through the real-time energy market– Market participants bring generation online based on their expectations
of revenues from the energy market
– The market clears through the economic dispatch process every five minutes, thereby adjusting the output levels of online generators to balance system load
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Frequency Control
• However, this five-minute generation dispatch alone does not ensure that appropriate resources are available to acceptably balance generation with load– Additional mechanisms are needed which are “ancillary” to the energy
market
– These Ancillary Services ensure that sufficient resources with the appropriate characteristics are available to cover any additional variability and risk mitigation that is not covered by the energy market in order to meet reliability requirements
Sources of Residual Variability:•Load varies constantly•Intermittent resource output varies constantly•Generating units do not immediately move to a new required output level, but “ramp” over several minutes•Generating units unexpectedly trip offline•Load and wind forecasts are not perfectly accurate•Transmission outages cause changes in transmission losses
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Why is a change in the AS framework being proposed?
• Current AS Framework has performed well but has issues– Current framework is based on inherent characteristics of steam
generators
– Several, distinct operational requirements are currently bundled as a single service (e.g. Responsive Reserve Service)
– Awkward to fit capabilities of new technologies (e.g. CCGTs with duct firing, wind turbines) that could provide services efficiently
• Need for changes has been highlighted in discussion of Fast Responding Regulation Service (FRRS), NPRR 524(Resource Limits in Providing Ancillary Service), etc.
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Drivers for new AS framework
• Resources could provide some services more efficiently if the requirements were decoupled (PFR/ FFR/ Contingency Reserve)– Requirements for services need to align with technical needs in order to
allow technically-capable resources to provide services
• Some new services are needed to ensure technical requirements are met that used to be provided, inherently, by generators (e.g. inertia)
• Changes in market design and control systems(e.g. 5 minute dispatch, HRUC) have reduced the need for other services
• New regulatory requirements (BAL-003)
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Goal
Current AS Framework-Based on capabilities of conventional steam generating units-Unique services bundled together due to inherent capabilities of conventional units-Mix of compensated and uncompensated services-New technologies are cobbled on, with difficulty
Future AS Framework-Technology neutral-Market-based-Based on fundamental needs of the system, not resource characteristics-Unbundled services-Flexible for new technologies-Pay for performance, where practical-Co-optimized procurement-Will evolve over time
5+ YearsNow
Transition Plan TBD
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Scope
• Develop long-term Ancillary Services (AS) framework to guide:– Decisions on near-term changes to current AS– Requirements for changes to ERCOT systems (EMMS, etc.)– Investment in new resources and new resource types by the
mkt.• Framework will be developed in phases, due to complexity of
issues– Current Phase will only address frequency control services– Future Phases may address Voltage Support and other services
• Framework should eventually include roadmap for transition from current AS to future framework– Prioritization of services to be transitioned– Inter-relationship of services that must transition concurrently – High-level consideration of ERCOT systems and market impacts
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ERCOT Proposal
• ERCOT proposes the transition to the following five AS products:
– Synchronous Inertial Response Service (SIR),– Fast Frequency Response Service (FFR),– Primary Frequency Response Service (PFR), – Regulating Reserve Up (RRU) and Regulating Reserve Down
(RRD) Service, and– Contingency Reserve Service (CR).
• This revised AS set adds and/or redefines specific AS products currently used by the ERCOT System and
– Subsumes different elements within the current Responsive Reserve Service into several of the newly defined services.
– Recognizes during the transition period from today’s AS to the future AS set, there may be the need for a Supplemental Reserve Service that would be similar to today’s 30-minute Non-Spin Service.
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SYNCHRONOUS INERTIAL RESPONSE(SIR) SERVICE
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Synchronous Inertial Response (SIR) Service, Purpose
SIR is stored kinetic energy that is extracted from the rotating mass of a synchronous machine following a disturbance in a power system
Maintain minimum Rate of Change of Frequency (RoCoF) Provide sufficient time from Point A to Point C, for Fast Frequency Response and
Primary Frequency Response No triggering RoCoF protection of synchronous generators (generally 0.5 Hz/s)
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Synchronous Inertial Response Service, Need
SIR has significant implications on the RoCoF during power imbalances;
With increasing use of non-synchronous generation, changing load characteristics (less motor loads), increase in Combined Cycle units (lower inertia), the system SIR response is reduced:
RoCoF increases, leaving insufficient time for PFR to deploy and arrest the system frequency excursion.
High RoCoF may trigger generation RoCoF protection, tripping
additional synchronous generators.
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Synchronous Inertial Response Service, Need
So far, the RoCoF during high wind/low load condition was less than 0.2 Hz/s and the average time to reach frequency nadir during frequency events is 4 to 6 seconds.
The system inertia available in the real time operations under current conditions is still sufficient.
Studies based on 2012 system conditions indicated RoCoF as high as 0.4 Hz/s for two largest unit trip (2750 MW as per recently approved NERC BAL-003 standard).
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SIR, Qualification and Resource Limit
SIR can be provided by synchronous machines, whenever in operation.
Quantity of inertia contribution is determined as kinetic energy that can be provided by a synchronous machine during system imbalance:
H·MVA
H is machine inertia constant in seconds
MVA is machine’s rated power
SIR is based on actual physical characteristics of a machine SIR is independent of machine’s operating point.
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SIR, Deployment / Performance
Deployment Instantaneous and continuous self-deployment
Performance SIR is the characteristic of a synchronous machine and is
independent from external control or pre-disturbance power output
Resource performance will be evaluated based on machine parameters (H and rated MVA) and machine status (online/offline)
Every individual synchronous resource capable of providing this service will be required to provide ERCOT with machine specific data (via the RARF) and telemetry of its status.
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Monitor and project the trend of ERCOT system inertial response and RoCoF
Identify the minimum needs of system inertia and duration between points A and C
Gather data to determine each generator’s RoCoF tolerance
Investigate capability and value of synthetic inertial response from renewable energy resources to contribute to system’s SIR
SIR, Future work
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FAST FREQUENCY RESPONSE (FFR) SERVICE
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Fast Frequency Response (FFR) Service
Need To changing frequency to supplement the inherent inertial
response from synchronous machines To provide sufficient time for PFR to deploy and arrest fast
frequency excursion in the event of sudden power imbalance
Deployment and Performance Self deployment Provide full response within 30 cycles (0.5 secs.) at a
specified frequency thresholds and sustained for at least 10 minutes
FFR service will require a high resolution measurement
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Fast Frequency Response (FFR) Service
Discussion Presently there is no separate FFR Service in ERCOT,
however up to 1400 MW of Responsive Reserve Service (RRS) procured from Load Resources (LR) satisfy FFR characteristics
In the proposed AS framework FFR and PFR are highly interdependent and the required quantity of each service can vary based on the system conditions
FFR and PFR work together to produce the desired system response
FFR service cannot completely replace the PFR service A performance requirement needs to developed
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PRIMARY FREQUENCY RESPONSE (PFR) SERVICE
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Definition of PFR Service
Primary Frequency Response (PFR) is defined as the instantaneous proportional increase or decrease in real power output provided by a Resource in response to system frequency deviations.
This response is in the direction that stabilizes frequency. Primary Frequency Response is attained due to Governor or Governor-like action PFR is instantaneous response relative to the frequency deviation, PFR is generally delivered completely within 12 to 14 seconds.
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Primary Frequency Response (PFR) Service- Need
ERCOT as a single Balancing Authority Interconnection with only limited interconnection to the other Interconnects is solely responsible for maintaining frequency to maintain reliability and meet NERC standard requirements.
All of ERCOT’s frequency response can only come from Resources within the ERCOT Interconnection.
On July 18th, 2013 FERC issued a Notice of Proposed Rule Making (NOPR) approving the BAL-003 NERC Frequency Response Standard
BAL-003 sets a Frequency Response Obligation (FRO) for each BA based on loss of two largest single units.
The minimum FRO for ERCOT is 286 MW/0.1 Hz
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Primary Frequency Response (PFR) Service
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Qualification and Resource Limit on PFR
Biennial Governor Tests Capacity that can be deployed by a Resource’s
Governor for 1% change in Frequency outside Governor Dead-band
The quantity of PFR that can be provided by a specific Resource, will be based on the median of actual performance of the Resource in last three measurable events measured at B point and B+30 seconds point
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Determination of the Amount of FFR and PFR Reserves
The objective of Fast Frequency Response (FFR) and Primary Frequency Response (PFR) Reserves should be to ensure Frequency is arrested above UFLS threshold of 59.30 Hz and to meet NERC FRO Standard (BAL-003).
Frequency Response Obligation (FRO) for ERCOT is determined based on instantaneous loss of two largest units (2750 MW).
ERCOT must develop methodologies for the regular assessment of the needed concurrent amounts of both FFR and PFR.
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Determination of the Amount of FFR and PFR Reserves
How much PFR is needed will be based on minimum requirement for FFR while maintaining minimum PFR capability within Generators (for example, in the current RRS, Load Resources can provide up to 50% of 2800 MW RRS).
System Load FFR PFR(5% Droop)<=35000 MW
840 MW(30% 0f 2800) 1960 MW
<=35000 MW
0 MW 4480 MW
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REGULATING RESERVE (RR) SERVICE
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Regulating Reserve (RR) Service – Up & Down
An amount of reserve responsive to Load Frequency Control, which is sufficient to provide normal regulating margin.
ERCOT generation is dispatched through Security Constrained Economic Dispatch (SCED) every five minutes to balance the generation and demand. The power imbalance between each SCED interval will cause frequency deviation that requires Regulating Reserve to compensate. This action will be provided by RR service.
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Regulating Reserve (RR) Service – Up & Down
While not substantially changing from todays Regulation Service ERCOT is proposing to implement the following:
LFC signals will be delivered by ERCOT specific for the Resource providing this service (i.e. the QSE fleet deployment of Regulation services will be discontinued).
The deployment instructions should be determined by taking into consideration ramp rates, HSLs etc. of each of the individual Resources.
Resources providing RR should be limited to min(NURR,NDRR)*5*0.70, where NURR and NDRR are Normal-Up Ramp Rate and Normal-Down Ramp Rate
The pay for performance approach should reward those Resources that closely follow the ERCOT LFC signal
ERCOT will re-visit its LFC and RLC to avoid deploying RR for more than 10 continuous minutes in one direction during normal operation.
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CONTINGENCY RESERVE (CR) SERVICE
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Contingency Reserve (CR) Service – Need & Purpose
CR is to ensure that the Balancing Authority is able to restore Interconnection frequency within defined limits following a DCS event within 15 minutes and restore its Primary Frequency and Regulating Reserve.
According to NERC BAL-002-1 Disturbance Control Standard (DCS), The minimum amount of CR required is equivalent to “Most Severe Single Largest Contingency”, in ERCOT’s case this is currently 1375 MW.
To ensure ERCOT can meet the standard, the CR must be fully deliverable within 10 minutes so that frequency can be restored to the pre-disturbance level within 15 minutes
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Qualification Resources providing CR should be qualified up to the MW value to
which they are able to ramp within 10 minutes from the time of deployment.
Deployment ERCOT will deploy CR for a sizable generation trip. Resources providing CR must telemeter their ramp-rates such that
SCED can dispatch the full Resource CR responsibility within 10 minutes.
Performance Resources providing CR must be able to deliver and sustain the
reserve deployments for the full hour it is carrying that obligation.
Contingency Reserve
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Preliminary Thoughts:Market and Transition to New Ancillary Services (AS) Products
Sai Moorty
Workshop on Future AS in ERCOTOctober 24, 2013
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Market Topics
• Market Based Procurement of AS
– Energy & AS co-optimization for• Fast Frequency Response Service (FFR)
• Primary Frequency Response Service (PFR)
• Regulating Reserve Up & Down Service (RR)
• Contingency Reserve Service (CR)
– Synchronous Inertial Response Service (SIR)• Procurement process to be discussed
• Markets Impacted
– Day-Ahead Market (DAM)
– Real-Time Market-RTM (more discussion required)
• Settlements (Not covered in this presentation)
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Procurement
• Propose to setup a market procurement process similar to the existing AS procurement process:– Energy & AS co-optimization (FFR,PFR,RR, & CR – not
SIR at present)– Continued use of the current market systems for the
submission of linking AS offers and exclusive AS offers between each service and with energy (not SIR at present).
– Incorporation of the new AS products in ERCOT’s daily AS Plan
– Procurement of the required AS services (subject to self-provisions) in the Day Ahead Market
• Market procurement (DAM & RTM) process can include the use of ORDC
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• These three services are the unbundling of current Responsive Reserve Service (RRS)
• Combined requirement (FFR + PFR requirement) with a maximum procurement cap for FFR– Single/Same MCPC for both FFR & PFR services– Similar mechanism as current procurement of RRS from Generation
and Load Resources– The required procurements of FFR & PFR are related
• If procured FFR is less than minimum FFR required, then DAM is rerun with increased requirement for PFR– Similar mechanism as current DAM AS insufficiency process
• CR procurement is similar to current DAM procurement of Non-Spin
Fast Frequency Response (FFR), Primary Frequency Response (PFR) & Contingency Reserve (CR) - Procurement
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• Regulation Reserve Up & Down services are procured through the energy and AS co-optimization process– Very Similar to current methodology in DAM
Regulation Reserve Up & Down (RR) - Procurement
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• Amount of SIR required determined from studies for each hour of the day– Quantity required depends on amount (inertia) and type of
Resources typically planned to be committed ON for that hour
• Procurement of SIR is via a commitment process – it is NOT procured through the dispatch process
• SIR service cannot be co-optimized with energy or other AS– Function of status (OnLine)– There is no opportunity cost – this service is not provided
instead of energy or other types of AS – not a share of the capacity (HSL)
Synchronous Inertial Response (SIR) - Procurement
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• During some transition period a Supplemental Reserve Service could be implemented that would be similar to today’s 30-minute Non-Spin Service – This service is not included in the ultimate framework of the
proposed new AS product set– The need for, and details of a Supplemental Reserve Service will
be determined as part of the transition plan
Market Transition and Implementation Considerations
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• The Regulation Reserve Up & Down (RR) services provide the most flexibility with regard to an implementation schedule
• RR service’s functionality is closely maintained between the current and proposed AS product sets
• its commercial date can accommodate a timeline of its own with only minimal impacts by the remaining services implementation schedules
• Concurrent go-live of FFR, PFR, and CR with the same commercial operation date as they are basically the unbundling of the current Responsive Reserve Service (RRS)
Market Transition and Implementation Considerations
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• Current levels of SIR available are considered to be sufficient for the near future (next couple of years ?)– ERCOT suggests that this service be considered on a different
time track and implementation sequence
• In the transition period, ERCOT shall, for SIR– Develop methodologies to determine SIR requirements on an
hourly basis (or block of hours)– Monitor available SIR and report on future trends– Develop via stakeholder process, market mechanisms to
procure and price SIR service to meet SIR requirements• Consider modifying RUC to add constraint for SIR in order to
procure SIR
Market Transition and Implementation Considerations
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Market Topics for Future Discussions
• Real Time Market with Co-optimized Energy and AS• Separate vs. combined procurement for PFR & FFR?• Deliverability of AS (AS deliverability zones)?• Pay for Performance• Procurement Methodology for SIR• Role for DC ties providing AS• How AS Obligations are determined?• Timing of implementation of new AS Product set• Implementation of ORDC with revised AS
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• Submit written comments to [email protected] by COB November 1, 2013
• Update to be provided at 11-7-13 TAC meeting
• Review highlights of today’s workshop
• Review Action Items …….
Discuss and Summarize Today’s Highlights
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APPENDIX
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Synthetic IR
Inverter based resources can have the capability to inject active power into the system initiated through control system action following a disturbance, e.g. generator trip.
This capability, so called synthetic inertia, is already available from several WTG manufacturers.
Synthetic inertia capability requires control action in response to falling system frequency and therefore is not equivalent to synchronous machine inertia
However synthetic inertia will improve RoCoF and help to arrest system frequency decay. More discussion and evaluation of synthetic inertia performance is required.
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Synthetic IR, example from Hydro-Quebec