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Re-powering markets : market design and regulation during the transition to low-carbon power systems. PDF

246 Pages·2016·7.667 MB·English
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Secure Sustainable Together Re-powering Markets Market design and regulation during the transition to low-carbon power systems 6 1 Electricity Market Series 0 2 Re-powering Markets Market design and regulation during the transition to low-carbon power systems INTERNATIONAL ENERGY AGENCY The International Energy Agency (IEA), an autonomous agency, was established in November 1974. Its primary mandate was – and is – two-fold: to promote energy security amongst its member countries through collective response to physical disruptions in oil supply, and provide authoritative research and analysis on ways to ensure reliable, affordable and clean energy for its 29 member countries and beyond. The IEA carries out a comprehensive programme of energy co-operation among its member countries, each of which is obliged to hold oil stocks equivalent to 90 days of its net imports. The Agency’s aims include the following objectives: n Secure member countries’ access to reliable and ample supplies of all forms of energy; in particular, through maintaining effective emergency response capabilities in case of oil supply disruptions. n Promote sustainable energy policies that spur economic growth and environmental protection in a global context – particularly in terms of reducing greenhouse-gas emissions that contribute to climate change. n Improve transparency of international markets through collection and analysis of energy data. n Support global collaboration on energy technology to secure future energy supplies and mitigate their environmental impact, including through improved energy efficiency and development and deployment of low-carbon technologies. n Find solutions to global energy challenges through engagement and dialogue with non-member countries, industry, international organisations and other stakeholders. IEA member countries: Australia Austria Belgium Canada Czech Republic Denmark Estonia Finland France Germany Secure Greece Sustainable Hungary Together Ireland Italy Japan Korea Luxembourg Netherlands New Zealand Norway Poland Portugal Slovak Republic © OECD/IEA, 2016 Spain International Energy Agency Sweden 9 rue de la Fédération Switzerland 75739 Paris Cedex 15, France Turkey www.iea.org United Kingdom United States Please note that this publication is subject to specific restrictions The European Commission that limit its use and distribution. The terms and conditions are also participates in available online at www.iea.org/t&c/ the work of the IEA. RE-POWERING MARKETS Foreword Market design and regulation during the transition to low-carbon power systems Foreword The 2015 ministerial meeting of the International Energy Agency’s (IEA) member states embraced a new strategic vision to turn the IEA into the global clean energy technology hub. Importantly, this new vision is coupled with maintaining and reinforcing the core IEA mission on energy security. There is no field where clean energy and energy security interact more powerfully than Page | 3 electricity regulation and market design. The most powerful image of an energy security problem is a major city in darkness. An interconnected economy with its telecommunications and machine tools is as reliant on the high-quality supply of electricity as its consumers’ welfare is on lighting and electric appliances. For a century, a centralised high-carbon power system kept the lights on. The price has been the generation of over a third of global carbon emissions. Thus, to gain the full social and political support required for decarbonisation, the level of supply security that society has come to expect cannot be compromised. Some countries like Brazil and France have built decarbonised power systems on the basis of large-scale conventional low-carbon technologies, but they are exceptions benefiting from unique natural resources and policies. The most promising technological progress has been seen in wind and solar photovoltaics, which have accounted for the large majority of recent low-carbon deployments. These two variable renewable sources, however, are qualitatively different from a system operation and regulatory point of view. Wind and solar are primarily replacing production from dispatchable capacities in different locations and connection levels; consequently, the transition requires system operation and regulatory reforms. This should not stop the transition. Previous IEA analysis in The Power of Transformation has shown that large shares of variable renewables can be integrated into the power system in a secure and cost-efficient fashion by mobilising flexibility resources. Rapid improvements in low- carbon, demand-response and storage technologies can lead to a smarter, more efficient and more secure system, but achieving their full potential requires new approaches to policy and regulation. While technology is racing ahead, network infrastructure development is lagging behind. Innovation is not only about smart meters; it is also about smart regulation for new flexible business models involving millions of electricity consumers. The old regulatory paradigm designed to deliver kilowatt hours from a centralised system in a unidirectional fashion with meters read only once a year is unlikely to unleash the real-time flexibility that new technologies promise and that the new low-carbon power system will require. If regulatory regimes, market design and system operation end up lagging behind technology deployment, the result may undermine electricity security and, ultimately, the low-carbon transition itself. Re-powering Markets is the first official publication of the IEA that analyses the electricity market framework for low-carbon power systems. It discusses, for all relevant dimensions of electricity market design, the balance that policy makers must strike between supporting innovation and competition while mobilising capital for the deployment of low-carbon sources. It covers the characteristics of a market design fit for the transition to low-carbon power – one that has proper price signals and the competitive provision of flexibility and adequacy. It addresses in detail the policy and regulatory aspects related to the largest and most complex machine in the world: the electric network, a network which has never been more essential but must nevertheless be transformed. Re-powering Markets is the flagship output of the IEA Electricity Security Action Plan and is a key IEA contribution to the post-Paris energy transformation. Fatih Birol Executive Director International Energy Agency Table of Contents RE-POWERING MARKETS Market design and regulation during the transition to low-carbon power systems Table of contents Foreword .................................................................................................................................. 2 Acknowledgements ................................................................................................................... 9 Executive summary ................................................................................................................. 11 Page | 4 Introduction ............................................................................................................................ 17 Chapter 1 • Re-powering markets: Context and key issues ...................................................... 21 1.1. Electricity reforms ............................................................................................................ 21 1.2. Challenges facing the power sector during the energy transition ........................................ 25 1.3. Re-powering markets ....................................................................................................... 34 References ............................................................................................................................... 39 Chapter 2 • Low-carbon generation investments ..................................................................... 43 2.1. Aligning electricity market design and low-carbon electricity: What does it take? ......... 45 2.2. Market and carbon price uncertainty can hinder low-carbon investment ...................... 54 2.3. The regulatory transition: Low-carbon investment support instruments ........................ 59 Conclusion ............................................................................................................................... 69 References ............................................................................................................................... 71 Chapter 3 • Short-term markets .............................................................................................. 73 3.1. New operational requirements for large shares of variable and distributed resources: Increasing flexibility ................................................................................................................. 74 3.2. Resolution of market design ............................................................................................. 81 3.3. Designing short-term markets fit for a high share of renewables: A strawman proposal 88 References ............................................................................................................................... 94 Chapter 4 • Reliability, adequacy and scarcity pricing .............................................................. 97 4.1. Regulation of reliability..................................................................................................... 98 4.2. Market design implications: Scarcity pricing .................................................................. 108 Conclusion ............................................................................................................................. 116 References ............................................................................................................................. 119 Chapter 5 • Designing capacity markets................................................................................. 121 5.1. Capacity mechanisms are increasingly used .................................................................. 121 5.2. Targeted volume-based capacity mechanisms .............................................................. 127 5.3. Market-wide capacity mechanisms ................................................................................ 131 5.4. Regional markets and capacity trading .......................................................................... 147 Conclusion ............................................................................................................................. 150 References ............................................................................................................................. 151 Chapter 6 • Demand response ............................................................................................... 153 6.1. Benefits of demand response ......................................................................................... 154 6.2. Participation of demand in electricity markets .............................................................. 158 6.3. Dynamic pricing .............................................................................................................. 167 6 1 0 A, 2 Conclusion ............................................................................................................................. 171 E D/I References ............................................................................................................................. 171 C E O © RE-POWERING MARKETS Table of Contents Market design and regulation during the transition to low-carbon power systems Chapter 7 • Interconnected transmission networks ............................................................... 173 7.1. Networks as the backbone of the electricity market ..................................................... 175 7.2. Current state of play ....................................................................................................... 179 7.3. Investments in new interconnectors .............................................................................. 183 7.4. Market-based network infrastructure investments ....................................................... 191 Page | 5 Conclusion ............................................................................................................................. 193 References ............................................................................................................................. 193 Chapter 8 • Regulation of distribution networks .................................................................... 197 8.1. Distributed resources call for a rethinking of regulation ............................................... 198 8.2. Design of market platforms for distributed resources ................................................... 202 8.3. Towards DSO regulation 2.0 ........................................................................................... 206 Conclusion ............................................................................................................................. 216 References ............................................................................................................................. 216 Chapter 9 • Retail pricing ....................................................................................................... 219 9.1. Retail prices, competition and behind-the-meter generation ....................................... 219 9.2. Retail price reform .......................................................................................................... 227 Conclusion ............................................................................................................................. 233 References ............................................................................................................................. 233 Chapter 10 • General conclusion and key recommendations ................................................. 235 Key recommendations: A new market framework for decarbonisation ............................... 238 Abbreviations and acronyms ................................................................................................. 241 List of figures Figure 1.1 • Organisation of the power sector ............................................................................... 22 Figure 1.2 • Map of the status of liberalisation .............................................................................. 23 Figure 1.3 • Capacity addition in OECD Europe by technology, 1960-2014 ................................... 25 Figure 1.4 • Contributions to annual emissions reductions between a 6°C and a 2°C scenario .... 26 Figure 1.5 • Impact of decarbonisation on the merit order of generation .................................... 27 Figure 1.6 • Evolution of net load for different shares of variable renewables ............................. 30 Figure 1.7 • Regional, locational and local electricity markets ....................................................... 31 Figure 1.8 • Overview of different building blocks of electricity markets ...................................... 36 Figure 1.9 • PJM billing for services (2014) ..................................................................................... 38 Figure 2.1 • Market-technology matrix .......................................................................................... 46 Figure 2.2 • Breakdown of the levelised cost of various technologies by cost component, United Kingdom by 2020 (7% discount rate) .......................................................................... 48 Figure 2.3 • Cash flows of a wind project (USD/MWh) .................................................................. 49 Figure 2.4 • Electricity prices, three weeks in 2050 ........................................................................ 50 Figure 2.5 • Modelled price duration curve in ETP scenarios, 2050 ............................................... 51 Figure 2.6 • Finding the right electricity price and structure to optimise distributed resources ... 52 6 01 Figure 2.7 • Year-ahead forward market prices for Germany, France and the Netherlands ......... 54 2 EA, Figure 2.8 • Sensitivity analysis of electricity prices to CO2 and gas price assumptions, 2020-50 55 D/I C Figure 2.9 • FIT (left) and marketprice plus subsidy (right) (illustrative) ........................................ 60 E O © Table of Contents RE-POWERING MARKETS Market design and regulation during the transition to low-carbon power systems Figure 2.10 • Renewable capacity built by support instruments, OECD Europe 2005-14 .............. 62 Figure 2.11 • Market value factor of wind and solar PV as a function of their market share in Germany ................................................................................................................... 63 Figure 2.12 • Modulating premiums and level of support as a function of wholesale market price65 Figure 2.13 • Probability distribution of the IRR for onshore wind with and without support ...... 66 Figure 2.13 • Probability distribution of the IRR for onshore wind under different support Page | 6 schemes .................................................................................................................... 66 Figure 2.14 • Probability distribution of the IRR for onshore wind under different support schemes .................................................................................................................... 67 Figure 3.1 • Load duration curve of wind and solar generation in Germany, 2013 ....................... 76 Figure 3.2 • California ISO Long-Term Procurement Proceeding Scenario 24 March 2024 ........... 77 Figure 3.3 • Forecast errors of different system components 24 hours before real time, Germany 2014 ............................................................................................................................ 79 Figure 3.4 • Timeline of centralised and decentralised markets .................................................... 84 Figure 3.5 • Illustrative locational pricing ....................................................................................... 90 Figure 3.6 • Evolution of prices during the adjustment period ...................................................... 91 Figure 3.7 • Cost-reflective, complex bids ...................................................................................... 91 Figure 3.8 • Illustrative timeline during the adjustment period ..................................................... 92 Figure 3.9 • Overview of the evolution of the design of power markets ....................................... 93 Figure 4.1 • Duration of unplanned power interruptions (2008-12) ............................................ 108 Figure 4.2 • Scarcity pricing in Australia (NEM) ............................................................................ 111 Figure 4.3 • Proposed operating reserve demand curve in the ERCOT region ............................ 113 Figure 4.4 • Number of hours per month with prices at system-wide offer cap ......................... 114 Figure 4.5 • Investment cycles and reliability standards .............................................................. 116 Figure 4.6 • Modelled prices in four areas during one week in February .................................... 117 Figure 4.4 • Total reliability costs for different gas-fired capacity additions ............................... 118 Figure 5.1 • Simplified decision tree, energy-only market versus capacity mechanism .............. 122 Figure 5.2 • Wholesale market supply curve with strategic reserve (illustrative)........................ 127 Figure 5.3 • Development of Swedish strategic reserve .............................................................. 130 Figure 5.4 • Components of PJM wholesale price ........................................................................ 133 Figure 5.5 • PJM capacity market revenues by resource type ..................................................... 133 Figure 5.6 • PJM variable resource requirement curve for 2017/18 delivery period .................. 135 Figure 5.7 • RPM clearing prices by LDA ....................................................................................... 139 Figure 5.8 • NYISO ICAP demand curves for 2014/15................................................................... 144 Figure 5.9 • Historical NYISO ICAP spot prices .............................................................................. 144 Figure 5.10 • Successful bidders in the UK capacity market 2014 ................................................ 146 Figure 6.1 • Modelled demand response and supply curve in the European Union in 2050 ....... 154 Figure 6.2 • The different roles of demand response with high share of renewables ................ 155 Figure 6.3 • Source of demand response in PJM (2014/15 delivery year) ................................... 157 Figure 6.4 • Approaches to demand response ............................................................................. 159 Figure 6.5 • Demand response revenue by market in PJM 2008-14 ............................................ 163 Figure 6.6 • Examples of methods used to calculate the baseline ............................................... 166 Figure 6.7 • Electricity tariffs during weekdays in DTE Energy ..................................................... 168 Figure 6.8 • Peak-time rebate tariff in Colorado with Xcel Energy (simulation) .......................... 169 Figure 7.1 • Trilemma of transmission and distribution network planning ................................. 173 Figure 7.2 • Investment under the NPS 2015-40 (%) .................................................................... 174 Figure 7.3 • Share of energy produced, December 2014 ............................................................. 176 6 01 Figure 7.4 • Peak demand in ten European countries .................................................................. 177 2 A, Figure 8.1 • Network and power flow structure of the future ..................................................... 199 E CD/I Figure 8.2 • Projected generation of typically decentralised renewable energy in Germany ..... 200 E O © RE-POWERING MARKETS Table of Contents Market design and regulation during the transition to low-carbon power systems Figure 8.3 • Number of consumers connected at different voltages in Italy ............................... 203 Figure 8.4 • Distribution market-wholesale market interface ...................................................... 206 Figure 8.5 • Core mission and new objectives of distribution network regulation ...................... 207 Figure 8.6 • Annual generation wind duration curve in Germany ............................................... 209 Figure 8.7 • Evolution of the allowed revenues (left) and projected investment (right) of the Electricité Réseau de Distribution France (ERDF) for the regulatory period 2014-17 ..... 211 Page | 7 Figure 8.8 • Network tariff development in selected states of Australia ..................................... 211 Figure 9.1 • Average electricity prices in the industry sector by cost component in the European Union in the New Policies Scenario (NPS) ................................................................ 220 Figure 9.2 • Average household retail tariffs in United States, France and Germany .................. 221 Figure 9.3 • Evolution of the unitary surcharges in France (CSPE) and Germany (EEG)............... 221 Figure 9.4 • Switching rates in selected countries, 2014 .............................................................. 223 Figure 9.5 • Voluntary prices for small consumers in Spain as of 5 February 2015 ..................... 225 Figure 9.6 • Comparison of LCOE for PV and the average retail price in Germany ...................... 227 Figure 9.7 • Cost components and tariff structure of selected retail electricity prices ............... 227 Figure 9.8 • A slippery slope towards self-consumption .............................................................. 228 Figure 9.9 • Evolution of the Spanish network access tariff structure ......................................... 229 Figure 9.10 • An example of hourly profile of household load and solar PV generation ............. 232 Figure 10.1 • Potential for market revenues for conventional, low-carbon plants and transmission infrastructure, indicative values suggested by different sources (%)....................... 235 List of maps Map 5.1 • PJM locational delivery areas ...................................................................................... 139 Map 5.2 • NYISO load zones ......................................................................................................... 142 Map 5.3 • Neighbouring capacity markets in selected countries of Western Europe ................. 147 Map 5.4 • Neighbouring capacity markets in Northeastern United States .................................. 148 Map 7.1 • Comparison of solar (left-hand map) and wind (right-hand map) resources in the United States ............................................................................................................... 175 Map 7.2 • RTOs, ISOs and NERC regional entities ........................................................................ 180 Map 7.3 • EU interconnection levels in 2020 after completion of current projects of common interest ........................................................................................................................ 181 Map 7.4 • Transmission lines of common interest (PCI), TYNDP 2014 ........................................ 184 Map 7.5 • CREZs in Texas .............................................................................................................. 188 Figure 9.4 • Share of retail sales from retail power marketers, United States ............................ 222 List of tables Table 1.0 • Overview of the key dimensions of market frameworks for decarbonisation ............ 11 Table 2.1• Major risks of a power plant project, allocation and possible mitigation actions ........ 70 Table 3.1 • Technical resolution of market operations .................................................................. 82 Table 4.1 • Reliability standards and metrics in Europe ............................................................... 105 Table 4.2 • Reliability standards and metrics used in selected areas of North America .............. 106 Table 4.3 • Large-scale system blackouts involving several power system areas ........................ 107 Table 5.1 • Capacity mechanism experiences in selected markets .............................................. 124 Table 6.1 • Overview of demand response programmes in PJM ................................................. 162 Table 7.1 • LOLE in the Pentalateral Region in two periods ......................................................... 178 6 1 0 2 Table 7.2 • Jurisdictions with processes for merchant investments ............................................ 192 A, D/IE Table 8.1 • Anticipated distribution network investment costs ................................................... 198 C E Table 8.2 • Examples of distributed generation technologies...................................................... 198 O © Table of Contents RE-POWERING MARKETS Market design and regulation during the transition to low-carbon power systems Table 8.3 • Indicative list of outputs to measure the performance of Distribution Network Operators (DNOs) ......................................................................................................................... 213 Table 9.2• Overview of network tariffs structure ......................................................................... 230 Table 10.1 • Overview of market framework for the decarbonisation ........................................ 236 Page | 8 List of boxes Box 2.1 • What can be learned from modelling electricity prices in 2050? ................................... 50 Box 2.2 • Sensitivity analysis of electricity prices to CO2 and gas prices ....................................... 55 Box 2.3 • Variable renewable premium in Germany ...................................................................... 61 Box 2.4 • Multiple policy layers in the United States ..................................................................... 64 Box 2.5 • Modelling investors’ risks under different support instruments using Monte Carlo simulation ........................................................................................................................ 66 Box 2.5 • Modelling investors’ risks under different support instruments using Monte Carlo simulation (continued) ..................................................................................................... 67 Box 3.1 • Technical-economic features of power systems, the law of physics and long-lived assets ............................................................................................................................... 75 Box 3.2 • Day-ahead markets in nodal pricing systems – US case study ........................................ 83 Box 4.1 • Value of lost load (VoLL) .................................................................................................. 99 Box 4.2 • Effective load-carrying capability (ELCC) ....................................................................... 101 Box 4.3 • Can markets optimise blackouts? ................................................................................. 109 Box 4.4 • Scarcity pricing in the ERCOT region ............................................................................. 114 Box 4.5 • Modelling the economics of resource adequacy with high shares of renewables ....... 117 Box 5.1 • The reference technology for estimating CONE ........................................................... 136 Box 6.1 • Demand response in France .......................................................................................... 160 Box 6.2 • Level playing field for demand response illustrated in Belgium ................................... 163 Box 7.1 • Reinforcing the Eastern Interconnection ...................................................................... 179 Box 7.2 • Ten-year network development plan ............................................................................ 182 Box 7.3 • Renewable integration and grid planning in Texas ....................................................... 188 Box 8.1 • Distributed conventional energy generation ................................................................ 199 Box 8.2 • The future role of DSOs: a European perspective ......................................................... 208 Box 8.3 • Output regulation in Great Britain ................................................................................ 215 Box 9.1 •The Spanish Electricity Tariff Reform ............................................................................. 225 6 1 0 2 A, E D/I C E O © RE-POWERING MARKETS Acknowledgements Market design and regulation during the transition to low-carbon power systems Acknowledgements This publication was prepared by the Gas, Coal and Power Division (GCP) of the International Energy Agency (IEA), in co-operation with other directorates and offices of the Agency. The publication was designed by Manuel Baritaud under the supervision of Laszlo Varro, Head of Division and Keisuke Sadamori, Director of Energy Markets Security. Page | 9 The main authors and analysts were Manuel Baritaud (Chapters 1, 2, 3, 4, 6), Sylvia Spruck (Chapters 5, 7, 8, 9), Christelle Verstraeten (Chapters 6, 9), Matthew Wittenstein (Chapter 5), Simon Müller (Chapter 2), Noor Miza Razali (Chapter 9) Jesse Scott (Chapter 2) and Charlotte Vailles (Chapter 4). Special thanks to Jessica Isaacs, Tomi Motoi and Luis Munuera for additional contributions and support. Janet Pape provided consistent and comprehensive formatting as well as administrative support. This study also benefited from input provided by numerous IEA experts, in particular (in alphabetical order): Marco Baroni, Simon Bennett, Sylvia Beyer, Paolo Frankl, Christina Hood, Cédric Philibert, Keisuke Sadamori, Daniele Sinopoli, Johannes Trüby, Brent Wanner and Dave Wilkinson. Justin French-Brooks and Therese Walsh were the primary editors of this report. Thanks go to the IEA Communication and Information Office for their editorial and production guidance and to Bertrand Sadin for graphics. Expert reviewers and contributors Richard Baron of the Organisation for Economic Co-operation and Development (OECD) served as the official reviewer of the report. Many senior government officials and international experts provided input and reviewed preliminary drafts of the report. Their comments and suggestions were of great value. They include (in alphabetical order by organisation): Carsten Lehmkoester (Amprion GmbH), Gonzalo Saenz De Miera (Director of Energy Policy at Iberdrola), Stefan Ulreich (E.ON), Bernard De Clercq (Elia System Operator, Belgium), Juan Alba (Endesa, Spain), Juan Perez (EPEX Spot), Philippe Vassilopoulos (EPEX Spot), Tom Howes (European Commission), Manuel Sanchez Jimenez (European Commission), Matti Supponen (European Commission), Matt Wieckowski (European Commission), Richard Lavergne (Ministère de l’Ecologie, du Developpement Durable et de l’Energie, France), Mark Pickup (Ministry of Business, Innovation and Employment, New Zealand), Tomasz Dabrowski (Ministry of Economy, Poland), Doug Arent (National Renewable Energy Laboratory NREL, USA), Jan-Horst Keppler (Nuclear Energy Agency), Craig Glazer (PJM Interconnection), Stephen Woodhouse (Pöyry), Graham Weale (RWE), Katrin Schaber (Stadtwerke München SWM), Elaine O Connell (Department of Energy & Climate Change DECC), Mike Hogan (The Regulatory Assistance Project, United States), Marion Labatut (The Union of the Electricity Industry – EURELECTRIC), Avi Gopstein (U.S. Department of State) and Michael Grubb (University College, London). The individuals and organisations that contributed to this study are not responsible for any opinions or judgments it contains. All errors and omissions are solely the responsibility of the IEA. The work could not have been achieved without the support and co-operation provided by many government bodies, organisations and companies worldwide and was sponsored by a voluntary 16 contribution from Japan (Ministry of Economy, Trade and Industry). 0 2 A, E D/I C E O ©

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