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Presented to: ERCOT December 3, 2004 Presented by: Neenan Associates. Emergency Demand Response Concept Overview and Examples. Resources 2004. PJM. 1020. Price Following. Real Time. NE. 108. NY. 377. Day Ahead. Scheduled Curtailments. ISO Demand Response Programs. Price. PJM.
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Presented to: ERCOT December 3, 2004 Presented by: Neenan Associates Emergency Demand Response Concept Overview and Examples
Resources 2004 PJM 1020 Price Following Real Time NE 108 NY 377 Day Ahead Scheduled Curtailments ISO Demand Response Programs Price PJM NE Spot Energy Market PJM NY • Very low activity in NYISO day-ahead (low prices) • More real-time activity, but questions about value
Resources 2004 PJM 1783 NE 249 NY 1562 ISO Demand Response Programs Reliability PJM NE Capacity Emergency Op Reserves Spot NY Dispatched Operating Reserves PJM Forward ICAP Resource NY • Emergency program heavily marketed in NY, ICAP • ICAP increasing in importance • Ancillary services market participation is a new initiative
Need for Emergency DR • Operating reserves ensure that the loss of a major transmission line or large generator(s) does not imperil the entire system • If a deficiency is extreme enough, load shedding is undertaken to protect the overall system integrity • Well orchestrated load curtailments help mitigate, or avoid operating reserve deficiencies and their consequences… • Without disrupting spot market price formation • Only the ISO can effectively dispatch such resources – reliability is a social good
ISO Emergency DR Programs • Emergency DR Programs provide system operators with unique reserves • Resources indigenous to the market • Fully synchronized to the system, Short notice (2 hours) • High availability rate, diverse and reliable • No capacity payment required – pay for performance only Reg. Sites / Subscr. MW 2002 2003 Start Date 2001 2004 292 / 425 1,711 / 668 1,231 / 879 About the same NYISO May 2001 Slightly higher PJM May 2001 17 / 62 61 / 629 99 / 629 ISO-NE June 2001 12 / 6 79 / 113 106 / 249 About the same Source : NERA Dec. 2003
NYISO EDRP Registration Requirements • To participate, customers must: • Register at least 100 kW of load curtailment and/or output from on-site generator • Have an interval meter • Small-customer aggregations HVAC controls, pool pumps, etc. can employ statistical method for determining performance • Program registration options • Load Serving Entity (LSE) • Curtailment Service Provider (CSP) • As a Direct or Limited Customer of the NYISO Currently, almost all participants register through a default service utility
NYISO EDRP Dispatch Rules • NYISO can dispatch EDRP resources at the zonal level, on an as-needed basis • EDRP invoked when In-Day Peak Hour Forecast indicates an 30-Min operating reserve shortage and/or Major Emergency state is declared • Sometimes a non-binding advisory notice is provided a day-ahead • Once operating reserve shortage is verified in-day, curtailment event is declared with at least two (2) hour’s notice of event • Four (4) hour minimum event duration Concession to customers
NYISO EDRP Customer Baseline Load (CBL) Methodology • Uses most recent ten (10) days hourly interval-metered usage values • Calculate each day’s total usage during event hours • Choose the resulting five (5) highest days • Average the interval usage data by hour over those five days to get an hourly CBL value • Optional adjustment for weather can be applied • CBL is adjusted(up & down) relative to conditions 2 hours prior to the start of the event
NYISO EDRP Payment • Participation in any event is voluntary • No requirement to notify the NYISO of their intent to participate in an EDRP event in order to be paid • Payment is for any measured level of curtailment • Payment is the higher of $500/MWh or LBMP • NYISO pays the registration agent, not participants • Unregulated Agents’ contract terms are proprietary • NYPSC requires regulated LSEs pass along at least 90% of payment Price has generally lower
Emergency DR Program Benefits • Reliability Benefits – curtailments reduce the probability of an outage due to operating reserve shortfalls • Value is defined as product of: • Expected Unserved Energy • VOLL • Program is operated to avoid any unintended consequences on on real-time spot market prices • If the DR reserves turn out to be needed, then they can set real-time LBMP, but only if price otherwise is below $500 • Adopted because initially the dispatch of large DR resources appeared to cause RT price to crash
EDRP Curtailed MWHs Reliability Benefits ($M) Program Payments ($M) 20.1 4.8 32.3 4.2 3.3 3.9 8,159 6,632 7,734 NYISO EDRP Historical Program Benefits B/C Ratio 2001 2002 2003 ~ 5 ~ 1.5 ~ 9.5
Date System State Benefit Payment Ratio Aug. 15 Recovering $31.6M $3.2M 9.5 Aug. 16 Recovered $0.7M $0.7M 1.0 Total $32.3M $3.9M 8.3 EDRP Reliability Benefits during Northeast Blackout of 2003 • Recovering System State (August 15) • Change in LOLP=1.0, High VOLL=$5,000/MW, Load At Risk=DR • Recovered System State (August 16) • Change in LOLP=0.2, Low VOLL=$2,500/MW, Load At Risk=Only DR Needed to meet 30-Minute Reserve Margin
Some Observations • Participation in NYISO grew to over 800 MW in three years • Only about 10% of registered resources are DG • Diverse participation contributes to availability • Constant and reliable curtailment performance • Level stable over 5-6 hour events • On average, curtailment is about 1/3 of CBL • Vital early role for Curtailment Service Providers • Vital agency role • PSC tariffs and jawboning • NYSERDA outreach and technology support