Sage Journals: Discover world-class research

Abstract

We develop a model of a wholesale electricity market with energy and capacity market components to examine the economic relationship between costs and reliability. We investigate the importance of efficient resource accreditation—the amount by which to compensate resources for their contribution to system reliability. We use an analytical model to formalize the concept of optimal accreditation in a simplified theoretical setting, and demonstrate that “marginal effective load carrying capability,” a method for measuring resources’ reliability value increasingly adopted by system operators, is an approximation of our theoretical measure of marginal contribution to reliability. Applying our model to the PJM system, we empirically assess reliability costs, estimating that current reliability standards implicitly value a potential supply shortage at $54,000 to $77,000 per megawatt hour. Market outcomes are highly dependent on the accreditation method; inaccurate heuristics achieve reliability at 0.3% to 100% greater costs than the most efficient method. By displacing expensive generation resources, improving reliability causes increases in capacity market payments that are largely, but not entirely, offset by decreases in energy market payments.

JEL Classification: D47 Market Design; Q41 Energy: Demand and Supply; Prices; Q40 Energy: General; Q42 Alternative Energy Sources

Keywords

wholesale electricity market design capacity markets resource adequacy

Get full access to this article

View all access options for this article.

References

Aagaard

Todd

Kleit

Andrew N.

2023. “Marginal vs. Average Effective Load Carrying Capability: How Should Capacity Markets Deal with Alternative Generation Forms?” Utilities Policy 84: 101654.

Allcott

Hunt

. 2012. “Real-Time Pricing and Electricity Market Design.” Working Paper, NBER.

Bialek

Sylwia

Ünel

Burçin

. 2019. “Will You Be There for Me the Whole Time? On the Importance of Obligation Periods in Design of Capacity Markets.”The Electricity Journal 32 (2): 21–26.

Bichuch

Maxim

Hobbs

Benjamin F.

Song

Xinyue

. 2023. “Identifying Optimal Capacity Expansion and Differentiated Capacity Payments Under Risk Aversion and Market Power: A Financial Stackelberg Game Approach.”Energy Economics 120: 106567.

Boiteux

Marcel

. 1960. “Peak-Load Pricing.”The Journal of Business 33 (2): 157–79.

Boiteux

Marcel

. 1964. “The Choice of Plant and Equipment for the Production of Electric Energy.” In Marginal Cost Pricing in Practice, edited by Nelson

Prentice-Hall.

Bothwell

Cynthia

Hobbs

Benjamin F.

2017. “Crediting Wind and Solar Renewables in Electricity Capacity Markets: The Effects of Alternative Definitions upon Market Efficiency.”The Energy Journal 38: 173–88.

Bushnell

James

Flagg

Michaela

Mansur

Erin

. 2017. “Capacity Markets at a Crossroads.” Working Paper 278, Energy Institute at Hass.

Chen

Hong

Pilong

Chris

Rocha-Garrido

Patricio

, et al. 2022. “Grid Resilience with High Renewable Penetration: A PJM Approach.”IEEE Transactions on Sustainable Energy 14 (2): 1169–77.

10.

Cramton

Peter

Ockenfels

Axel

Stoft

Steven

. 2013. “Capacity Market Fundamentals.”Economics of Energy & Environmental Policy 2 (2): 27–46.

11.

Cramton

Peter C.

Stoft

Steven

. 2006. “The Convergence of Market Designs for Adequate Generating Capacity with Special Attention to the CAISO’s Resource Adequacy Problem.” Working Paper, MIT Center for Energy and Environmental Policy Research.

12.

Deryugina

Tatyana

MacKay

Alexander

Reif

Julian

. 2020. “The Long-Run Dynamics of Electricity Demand: Evidence from Municipal Aggregation.”American Economic Journal: Applied Economics 12 (1): 86–114.

13.

EIA. 2024. “Henry Hub Natural Gas Spot Price, Daily.”https://www.eia.gov/dnav/ng/hist/rngwhhdD.htm. Accessed June 11, 2024.

14.

Fabra

Natalia

. 2018. “A Primer on Capacity Mechanisms.”Energy Economics 75: 323–35.

15.

Garver

Leonard L.

1966. “Effective Load Carrying Capability of Generating Units.”IEEE Transactions on Power Apparatus and Systems 8: 910–919.

16.

Graf

Christoph

Marcantonini

Claudio

. 2017“Renewable Energy and Its Impact on Thermal Generation.”Energy Economics 66: 421–30.

17.

Hobbs

Benjamin F.

Inon

Javier

Stoft

Steven E.

2001. “Installed Capacity Requirements and Price Caps: Oil on the Water, or Fuel on the Fire?”The Electricity Journal 14 (6): 23–34.

18.

Holland

Stephen P.

Mansur

Erin T.

2008. “Is Real-Time Pricing Green? The Environmental Impacts of Electricity Demand Variance.”The Review of Economics and Statistics 90 (3): 550–61.

19.

Holmberg

Pär

Ritz

Robert A.

2021. “Optimal Capacity Mechanisms for Competitive Electricity Markets.”The Energy Journal 42 (1_Suppl): 1–34.

20.

Joskow

Paul L.

2008. “Capacity Payments in Imperfect Electricity Markets: Need and Design.”Utilities Policy 16 (3): 159–70.

21.

Joskow

Paul L.

2019. “Challenges for Wholesale Electricity Markets with Intermittent Renewable Generation at Scale: The US Experience.”Oxford Review of Economic Policy 35 (2): 291–331.

22.

Joskow

Paul L.

Tirole

Jean

. 2007. “Reliability and Competitive Electricity Markets.”The RAND Journal of Economics 38 (1): 60–84.

23.

Mallapragada

Dharik S.

Junge

Cristian

Wang

Cathy

Pfeifenberger

Hannes

Joskow

Paul L.

Schmalensee

Richard

. 2023. “Electricity Pricing Challenges in Future Renewables-Dominant Power Systems.”Energy Economics 126: 106981.

24.

Monitoring Analytics. 2024. “State of the Market Report for PJM, Volume 2: Detailed Analysis.”https://www.monitoringanalytics.com/reports/PJM_State_of_the_Market/2023.shtml. Accessed June 11, 2024.

25.

Murphy

Sinnott

Lavin

Luke

Apt

Jay

. 2020. “Resource Adequacy Implications of Temperature-Dependent Electric Generator Availability.”Applied Energy 262: 114424.

26.

Novan

Kevin

. 2015. “Valuing the Wind: Renewable Energy Policies and Air Pollution Avoided.”American Economic Journal: Economic Policy 7 (3): 291–326.

27.

PJM. 2024a. “Effective Load Carrying Capability.”https://www.pjm.com/planning/resource-adequacy-planning/effective-load-carrying-capability. Accessed June 11, 2024.

28.

PJM. 2024b. “Generation by Fuel Type.”https://dataminer2.pjm.com/feed/gen_by_fuel/definition. Accessed June 11, 2024.

29.

PJM. 2024c. “Settlements Verified Locational Marginal Prices.”https://dataminer2.pjm.com/feed/rt_da_monthly_lmps/definition. Accessed June 11, 2024.

30.

Schmalensee

Richard

. 2022. “Competitive Energy Storage and the Duck Curve.”The Energy Journal 43 (2): 1–16.

31.

Spees

Kathleen

Newell

Samuel A.

Pfeifenberger

Johannes P.

2013. “Capacity Markets—Lessons Learned from the First Decade.”Economics of Energy & Environmental Policy 2 (2): 1–26.

32.

Stoft

Steven

. 2002. Power System Economics: Designing Markets for Electricity. Vol. 468. IEEE Press.

33.

Sullivan

Michael

Schellenberg

Josh

Blundell.

Marshall

2015. “Updated Value of Service Reliability Estimates for Electric Utility Customers in the United States.” Technical Report, Lawrence Berkeley National Laboratory (LBNL).

34.

Teirilä

Juha

Ritz

Robert A.

2019. “Strategic Behaviour in a Capacity Market? The New Irish Electricity Market Design.”The Energy Journal 40 (1_Suppl): 105–126.

35.

Turvey

Ralph

. 2017. Optimal Pricing and Investment in Electricity Supply: An Essay in Applied Welfare Economics. Routledge.

36.

Wang

Shen

Zheng

Ningkun

Bothwell

Cynthia D.

Qingyu

Kasina

Saamrat

Hobbs

Benjamin F.

2021. “Crediting Variable Renewable Energy and Energy Storage in Capacity Markets: Effects of Unit Commitment and Storage Operation.”IEEE Transactions on Power Systems 37 (1): 617–28.

37.

Wen

Lei

Song

Qianqian

. 2023. “ELCC-Based Capacity Value Estimation of Combined Wind-Storage System Using IPSO Algorithm.”Energy 263: 125784.

38.

Wolak

Frank A.

2022. “Long-Term Resource Adequacy in Wholesale Electricity Markets with Significant Intermittent Renewables.”Environmental and Energy Policy and the Economy 3 (1): 155–220.

39.

Wozabal

David

Graf

Christoph

Hirschmann

David

. 2016. “The Effect of Intermittent Renewables on the Electricity Price Variance.”OR Spectrum 38: 687–709.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.12 MB

Cost-Effective Capacity Markets

Abstract

Keywords

Get full access to this article

References

Supplementary Material