ACER/CEER (2013). Annual Report on the Results of Monitoring the Internal Electricity and Natural Gas Markets in 2012, November.Google Scholar

ACER/CEER (2016). Annual Report on the Results of Monitoring the Internal Electricity and Natural Gas Markets in 2015, November.Google Scholar

Aid, R. (2015). Electricity Derivatives. London: Springer Verlag.Google Scholar

Anton, J. J., Vander Weide, J. H. and Vettas, N. (2002). Entry Auctions and Strategic Behavior under Cross-Market Price Constraints. International Journal of Industrial Organization, 20(5), 611–629.Google Scholar

A. T. Kearney Energy Transition Institute (2015). Smart Grids (Introduction), Factbook.Google Scholar

Averch, H. and Johnson, L. L. (1962). Behavior of the Firm under Regulatory Constraint. American Economic Review, 52, 1059–1069.Google Scholar

Batlle, C., Pérez-Arriaga, I. J. and Zambrano-Barragán, P. (2012). Regulatory Design for RES-E Support Mechanisms: Learning Curves, Market Structure, and Burden-Sharing. Energy Policy, 41, 212–220.Google Scholar

Baumol, W. J. and Bradford, D. F. (1970). Optimal Departures from Marginal Cost Pricing. The American Economic Review, 60(3), 265–283.Google Scholar

Benth, F. E., Benth, J. S., Koekebakker, S. (2008). Stochastic Modeling of Electricity and Related Markets. Singapore: World Scientific.Google Scholar

Biggar, D. R. and Hesamzadeh, M. R. (2014). The Economics of Electricity Markets. New York: Wiley-IEEE Press.Google Scholar

Blumseck, S. (2010). Introduction to Electricity Markets, available at www.e-education.psu.edu/ebf483/.Google Scholar

Bohn, E., Caramanis, M., Schweppe, F. and Tabors, R. (1988). Spot Pricing of Electricity. Dordrecht: Springer Science & Business Media.Google Scholar

Bohn, R. E., Caramanis, M. C., and Schweppe, F. C. (1984). Optimal Pricing in Electrical Networks Over Space and Time. The RAND Journal of Economics, 360–376.Google Scholar

Boiteux, M. (1960). Peak Load Pricing. Journal of Business, 33, 157–179 [translated from the original in French published in 1949].Google Scholar

Borenstein, S. (2002). The Trouble with Electricity Markets: Understanding California’s Restructuring Disaster. The Journal of Economic Perspectives, 16(1), 191–211.Google Scholar

Borenstein, S. (2005a). Time-Varying Retail Electricity Prices: Theory and Practice. Electricity Deregulation: Choices and Challenges, 317–357.Google Scholar

Borenstein, S. (2005b). The Long-Run Efficiency of Real-Time Electricity Pricing. The Energy Journal, 93–116.CrossRefGoogle Scholar

Borenstein, S. (2012). The Private and Public Economics of Renewable Electricity Generation. The Journal of Economic Perspectives, 26(1), 67–92.Google Scholar

Borenstein, S. and Bushnell, J. (1999). An Empirical Analysis of the Potential for Market Power in California’s Electricity Industry. The Journal of Industrial Economics, 47(3), 285–323.Google Scholar

Borenstein, S., and Bushnell, J. (2015). The US Electricity Industry after Twenty Years of Restructuring. Annual Review of Economics, 7(1), 437–463.Google Scholar

Borenstein, S., Bushnell, J. and Knittel, C. R. (1999). Market Power in Electricity Markets: Beyond Concentration Measures. The Energy Journal, 20(4), 65–88.Google Scholar

Borenstein, S., Bushnell, J., Kahn, E. and Stoft, S. (1995). Market Power in California Electricity Markets. Utilities Policy, 5(3), 219–236.Google Scholar

Borenstein, S., Bushnell, J. and Stoft, S. (2000). The Competitive Effects of Transmission Capacity in a Deregulated Electricity Industry. The RAND Journal of Economics, 31(2), 294–325.Google Scholar

Borenstein, S., and Holland, S. P. (2005). On the Efficiency of Competitive Electricity Markets with Time-Invariant Retail Prices. The RAND Journal of Economics, 36(3), 469–493.Google Scholar

Bower, J. and Bunn, D. W. (2000). Model-Based Comparisons of Pool and Bilateral Markets for Electricity. The Energy Journal, 1–29.Google Scholar

Brennan, T. (2006). Consumer Preference Not to Choose: Methodological and Policy Implications. Energy Policy, 35(3), 1616–1627.Google Scholar

Brundtland, G., Khalid, M., Agnelli, S., Al-Athel, S., Chidzero, B., Fadika, L. and Singh, M. (1987). Our Common Future, The Brundtland Report.Google Scholar

Brunekreeft, G., and Newbery, D. (2006). Should Merchant Transmission Investment Be Subject to a Must-Offer Provision? Journal of Regulatory Economics, 30(3), 233–260.Google Scholar

Bushnell, J. (1999) Transmission Rights and Market Power. Electricity Journal, 12(8), 77–85.Google Scholar

Bushnell, J. and Stoft, S. (1996). Electric Grid Investment under a Contract Network Regime. Journal of Regulatory Economics, 10, 61–79.Google Scholar

Bushnell, J. and Stoft, S. (1997). Improving Private Incentives for Electric Grid Investment. Resource and Energy Economics, 19, 85–108.Google Scholar

Cabral, L. M. B. (2000). Introduction to Industrial Organization. Cambridge, MA: The MIT Press.Google Scholar

Caramanis, M. C., Bohn, R. E. and Schweppe, F. C. (1982). Optimal Spot Pricing: Practice and Theory. IEEE Transactions on Power Apparatus and Systems, 9, 3234–3245.Google Scholar

Cardell, J. B., Hitt, C. C. and Hogan, W. W. (1997). Market Power and Strategic Interaction in Electricity Networks. Resource and Energy Economics, 19(1–2), 109–137.Google Scholar

Carlton, D. W. and Perloff, J. M. (2015). Modern Industrial Organization. Chapter 11, Natural Monopoly. London: Pearson Higher Education.Google Scholar

Chao, H. P. and Peck, S. (1996). A Market Mechanism for Electric Power Transmission. Journal of Regulatory Economics, 10(1), 25–59.Google Scholar

Choné, P., Flochel, L. and Perrot, A. (2002). Allocating and Funding Universal Service Obligations in a Competitive Market. International Journal of Industrial Organization, 20(9), 1247–1276.Google Scholar

Christen Associates in Energy Consulting (2016). Retail Choice in Electricity: What Have We Learned in 20 Years?, available at www.emrf.net/uploads/3/4/4/6/34469793/emrf_paper_retail_choice_in_electricity_160202_february_2016.pdf.Google Scholar

Christensen, L. R., and Greene, W. H. (1976). Economies of Scale in US Electric Power Generation. Journal of Political Economy, 84(4), 655–676.Google Scholar

Colak, I., Fulli, G., Sagiroglu, S., Yesilbudak, M. and Covrig, C. F. (2015). Smart Grid Projects in Europe: Current Status, Maturity and Future Scenarios. Applied Energy, 152, 58–70.Google Scholar

Competition and Market Authority (2015). Locational Prices in Britain, Great, available at https://assets.publishing.service.gov.uk/media/54eb5da5ed915d0cf7000010/Locational_pricing.pdf.Google Scholar

Concettini, S., and Creti, A. (2014). Liberalization of Electricity Retailing in Europe: What to Do Next? Energy Studies Review, 21(1), 21–35.Google Scholar

Considine, T. J. (2000). The Impacts of Weather Variations on Energy Demand and Carbon Emissions. Resource and Energy Economics, 22(4), 295–314.Google Scholar

Crampes, C. and Creti, A. (2005). Capacity Competition in Electricity Markets. Economia delle fonti di energia e dell’ambiente, 2, 59–83.Google Scholar

Crampes, C. and Laffont, J.-J. (2001). Transport Pricing in the Electricity Industry. Oxford Review of Economic Policy, 17(3), 313–328.Google Scholar

Cramton, P. (2004). Competitive Bidding Behavior in Uniform-Price Auction Markets. In System Sciences, 2004. Proceedings of the 37th Annual Hawaii International Conference on IEEE, 11–15.Google Scholar

Cramton, P. and Stoft, S. (2006). The Convergence of Market Designs for Adequate Generating Capacity. White Paper for the California Electricity Oversight Board, March 2006. Available at http://web.mit.edu/ceepr/www/publications/workingpapers/2006–007.pdf.Google Scholar

Cramton, P. and Ockenfels, A. (2012). Economics and Design of Capacity Markets for the Power Sector. Zeitschrift für Energiewirtschaft, 36(2), 113–134.Google Scholar

Cramton, P., Ockenfels, A. and Stoft, S. (2013). Capacity Market Fundamentals. Economics of Energy & Environmental Policy, 2(2), 27–46.Google Scholar

Crew, M., Fernando, C. and Kleindorfer, P. (1995). The Theory of Peak-load Pricing: A Survey. Journal of Regulatory Economics, 8, 215–248.Google Scholar

Dasgupta, P. and Heal, G. (1974). The Optimal Depletion of Exhaustible Resources. The Review of Economic Studies 41, 3–28.CrossRefGoogle Scholar

Day, C. J., Hobbs, B. F. and Pang, J. S. (2002). Oligopolistic Competition in Power Networks: A Conjectured Supply Function Approach. IEEE Transactions on power systems, 17(3), 597–607.Google Scholar

Dechenaux, E. and Kovenock, D. (2007). Tacit Collusion and Capacity Withholding in Repeated Uniform Price Auctions. The RAND Journal of Economics, 38(4), 1044–1069.Google Scholar

Defeuilley, C. (2009). Retail Competition in Electricity Markets. Energy Policy, 37(2), 377–386.Google Scholar

Bank, Deutsche (2016). Solar grid parity in a low oil price era, available at www.db.com/cr/en/concrete-deutsche-bank-report-solar-grid-parity-in-a-low-oil-price-era.htm.Google Scholar

Energy, DG (2016). Statistical Pocketbook. Bruxelles, BG: European Commission.Google Scholar

DOE (2000). Horizontal Market Power in Restructured Electricity Markets, Report. Washington, DC: Department of Energy.Google Scholar

Durmayaz, A. and Salim Sogut, O. (2006). Influence of Cooling Water Temperature on the Efficiency of a Pressurized‐Water Reactor Nuclear‐Power Plant. International Journal of Energy Research, 30(10), 799–810.Google Scholar

Edenhofer, O., Hirth, L., Knopf, B., Pahle, M., Schlömer, S., Schmid, E. and Ueckerdt, F. (2013). On the Economics of Renewable Energy Sources. Energy Economics, 40, S12–S23.Google Scholar

Foundation, Edison (2016). IEI Report, Electric Company Smart Meter Deployment.Google Scholar

EIA (2017). Levelized Cost and Levelized Avoided Cost of New Generation Resources in the Annual Outlook, Energy 2017, available at www.eia.gov/outlooks/aeo/pdf/electricity_generation.pdf.Google Scholar

Ellerman, A. D. and Buchner, B. (2007). The European Union Emissions Trading Scheme: Origins, Allocation, and Early Results. Review of Environmental Economics and Policy, 1(1) 66–87.Google Scholar

Ellerman, A. D. and Joskow, P. (2008). The European Union’s Emissions Trading System in Perspective. Arlington, VA: Pew Center on Global Climate Change.Google Scholar

Ellerman, A. D., Convery, F. J. and De Perthuis, C. (2010). Pricing Carbon: The European Union Emissions Trading Scheme. Cambridge: Cambridge University Press.Google Scholar

Elton, E. J, Gruber, M. J., Brown, S. J. and Goetzmann, W. N. (2014). Modern Portfolio Theory and Investment Analysis (9th ed.). New York: John Wiley & Sons.Google Scholar

ENTSO-E (2015). Entso at a Glance, available at www.entsoe.eu/Documents/Publications/ENTSO-E%20general%20publications/entsoe_at_a_glance_2015_web.pdf.Google Scholar

Eskeland, G. S., Mideksa, T. K. (2009). Climate Change Adaptation and Residential Electricity Demand in Europe. CICERO Working Paper.Google Scholar

Eskeland, G. S., Rive, N. A., and Mideksa, T. K. (2012). Europe’s Climate Goals and the Electricity Sector. Energy Policy, 41, 200–211.Google Scholar

Eurelectric (2017). Dynamic Pricing in Electricity Supply, Position paper, available at www.eemg-mediators.eu/downloads/dynamic_pricing_in_electricity_supply-2017–2520-0003–01-e.pdf.Google Scholar

European Commission (2001). Analysis of Electricity Network Capacities and Identification of Congestion – Final Report. Brussels.Google Scholar

European Commission (2009). Regulation (EC) No 714/2009 of the European Parliament and of the Council of 13 July 2009 on Conditions for Access to the Network for Cross-Border Exchanges in Electricity and Repealing Regulation (EC) No 1228/2003.Google Scholar

European Commission (2014). Identification of Appropriate Generation and System Adequacy Standards for the Internal Electricity Market. Final Report. Paper prepared by AF Mercados, E-Bridge, REF-E. EUR 2015.1392 EN. Luxembourg: Publications Office of the European Union. Doi:10.2832/089498.Google Scholar

European Commission (2015). Ex-post Investigation of Cost Pass-through in the EU ETS, CE Delft and Oeako Institute Report, EC Press.Google Scholar

Everett, B, Boyle, G, Peake, S. and Ramage, J. (2011). Energy Systems and Sustainability. Power for a Sustainable Future (2nd Edition). Oxford: Oxford University Press.Google Scholar

Fabra, N., von der Fehr, N. H. M. and Harbord, D. (2006). Designing Electricity Auctions. The RAND Journal of Economics, 37(1), 23–46.Google Scholar

Fabra, N., von der Fehr, N. H. M. and de Frutos, M. Á. (2011). Market Design and Investment Incentives. The Economic Journal, 121(557), 1340–1360.Google Scholar

Fang, X., Misra, S., Xue, G. and Yang, D. (2012). Smart Grid – The New and Improved Power Grid: A Survey. IEEE Communications Surveys & Tutorials, 14(4), 944–980.Google Scholar

Farhangi, H. (2010). The Path of the Smart Grid. IEEE Power and Energy Magazine, 8(1), 18–28.Google Scholar

Faulhaber, G. R. (1975). Cross-Subsidization: Pricing in Public Enterprises. The Economic Review, 65(5), 966–977.Google Scholar

FERC (2017). Staff Issues Assessment of Demand Response and Advanced Metering, Report available at www.ferc.gov/industries/electric/indus-act/demand-response/dem-res-adv-metering.asp.Google Scholar

Fouquet, R. Ed. (2015). Handbook of Energy and Climate Change, London: Edward Elgar Publishing.Google Scholar

Gangale, F., Vasiljevska, J., Covrig, F., Mengolini, A. and Fulli, G. (2017). Smart grid projects outlook 2017: Facts, figures and trends in Europe, EUR 28614 EN, doi:10.2760/15583.Google Scholar

Garfield, P. J., and Lovejoy, W. F. (1964). Public Utility Economics. Englewood Cliffs, NJ: Prentice-Hall.Google Scholar

Giordano, V. and Sanchèz, J. (2012). Guidelines for conducting a cost-benefit analysis of Smart Grid projects, JRC Reports, European Commission.Google Scholar

Giulietti, M., Grossi, L. and Waterson, M. (2010). Price Transmission in the UK Electricity Market: Was NETA Beneficial?, Energy Economics, 32(5), 1165–1174.Google Scholar

Goulding, A. J., Rufin, C. and Swinand, G. (1999). The Role of Vibrant Retail Electricity Markets in Assuring that Wholesale Power Markets Operate Effectively. The Electricity Journal, 12(10), 61–73.Google Scholar

Green, R. J. (1996). Increasing Competition in the British Electricity Spot Market. Journal of Industrial Economics, (44), 205–216.Google Scholar

Green, R. J. (1997). Electricity Transmission Pricing: An International Comparison. Utilities Policy, 6(3), 177–184.Google Scholar

Green, R. J. and Newbery, D. M. (1992). Competition in the British Electricity Spot Market. Journal of Political Economy, 100(5), 929–953.CrossRefGoogle Scholar

Golombek, R., Kittelsen, S. A. C. and Haddeland, I. (2012). Climate Change: Impacts on Electricity Markets in Western Europe. Climatic Change 113(2), 357–370.Google Scholar

Hattori, T. and Tsutsui, M. (2004). Economic Impact of Regulatory Reforms in the Electricity Supply Industry: A Panel Data Analysis for OECD Countries. Energy Policy, 32(6), 823–832.Google Scholar

Heal, G. (2009). The Economics of Renewable Energy. National Bureau of Economic Research, Working Paper No. w15081.Google Scholar

Hirst, E. and Kirby, B. (2001). Key Transmission Planning Issues. The Electricity Journal, 14(8), 59–70.Google Scholar

Hirth, L. (2012). Integration Costs and the Value of Wind Power: Thoughts on a valuation framework for variable renewable electricity sources, Potsdam Institute for Climate Impact Research and Vattenfall GmbH.Google Scholar

Hirth, L. (2013). The Market Value of Variable Renewables: The Effect of Solar and Wind Power Variability on Their Relative Price. Energy Economics, 38(2), 218–236.Google Scholar

Hirth, L., Ueckerdt, F. and Edenhofer, O. (2015). Integration Costs Revisited: An Economic Framework for Wind and Solar Variability. Renewable Energy, 74, 925–939.Google Scholar

Hogan, W. W. (1998). Nodes and Zones in Electricity Markets: Seeking Simplified Congestion Pricing. In: Designing Competitive Electricity Markets, Hung-po, C. and Huntington, H. G., Eds. New York: Springer.Google Scholar

Hogan, W. W. (1992). Contract Networks for Electric Power Transmission. Journal of Regulatory Economics, 4, 211–242.Google Scholar

Hogan, W. W. (2005). On An “Energy Only” Electricity Market Design for Resource Adequacy, Center for Business and Government, John F. Kennedy School of Government, Harvard University, Cambridge (MA). Available at www.whogan.com.Google Scholar

Hogan, W. W. (2013). Electricity Scarcity Pricing through Operating Reserves. Economics of Energy & Environmental Policy, 2(2), 65–87.Google Scholar

Hogan, W. W. (2015). Electricity Market Design Energy and Capacity Markets and Resource Adequacy, EUCI Conference, Capacity Markets: Gauging Their Real Impact on Resource Development and Reliability, Cambridge, MA. Available at www.whogan.com.Google Scholar

Hogan, W. W. and Pope, S. L. (2017). Priorities for the Evolution of an Energy-only Electricity Market Design in ERCOT. FTI Consulting. Report. Available at www.whogan.com.Google Scholar

Holland, S. P. and Mansur, E. T. (2006). The Short-Run Effects of Time-Varying Prices in Competitive Electricity Markets. The Energy Journal, 127–155.Google Scholar

Holland, S. P. and Mansur, E. T. (2008). Is Real-Time Pricing Green? The Environmental Impacts of Electricity Demand Variance. The Review of Economics and Statistics, 90(3), 550–561.Google Scholar

Holttinen, H., Meibom, P., Orths, P., Lange, A., O’Malley, B., Tande, M., Stanqueiro, J., Gomez, A., Söder, E., Strabac, L., Smith, G., J. and van Hulle, F. (2011). Impacts of Large Amounts of Wind Power on Design and Operation of Power Systems, Results of IEA Collaboration. Wind Energy, 14, 179–192.Google Scholar

Hortaçsu, A., Madanizadeh, S. A. and Puller, S. L. (2017). Power to Choose? An Analysis of Consumer Inertia in the Residential Electricity Market. National Bureau of Economic Research, Working Paper no. w20988.Google Scholar

Hotelling, H. (1931). The Economics of Exhaustible Resources. Journal of Political Economy, 39(2), 137–175.Google Scholar

Hu, Z., Kim, J. H., Wang, J. and Byrne, J. (2015). Review of Dynamic Pricing Programs in the US and Europe: Status Quo and Policy Recommendations. Renewable and Sustainable Energy Reviews, 42, 743–751.Google Scholar

Hull, J. C. (2015). Options, Futures and Other Derivatives (9th ed.). Upper Saddle River, NJ: Pearson Prentice Hall.Google Scholar

Hunt, S. (2002). Making Competition Work in Electricity. Chichester: John Wiley & Sons.Google Scholar

Hunt, S. and Shuttleworth, G. (1996). Competition and Choice in Electricity, Chichester, USA: John Wiley & Sons.Google Scholar

IEA (2011). Technology Roadmap: Smart Grids, International Energy Agency (IEA/OECD), Paris.Google Scholar

IEA (2014). The Power of Transformation: Wind, Sun and the Economics of Flexible Power Systems, International Energy Agency (IEA/OECD), Paris.Google Scholar

IEA (2017a). Key World Energy Statistics. Paris: International Energy Agency, OECD/IEA.Google Scholar

IEA (2017b). Renewable information. www.iea.org/publications/freepublications/publication/RenewablesInformation2017Overview.pdf.Google Scholar

IEEE (1996). IEEE Standard Dictionary of Electrical and Electronic Terms. Piscataway, NJ: IEEE Std 100–1996, Institute of Electrical and Electronics Engineers.Google Scholar

IRENA (2017). Perspectives for the Energy Transition: Investment Needs for a Low-Carbon Energy System, Report, OECD Press.Google Scholar

Jamasb, T. and Pollitt, M. (2005). Electricity Market Reform in the European Union: Review of Progress towards Liberalization and Integration. The Energy Journal, 26(Special Issue), 11–41.Google Scholar

Joskow, P. L. (1996). Introducing Competition into Regulated Network Industries: From Hierarchies to Markets in Electricity. Cambridge. MA: The MIT Press.Google Scholar

Joskow, P. L. (2000). Why Do We Need Electricity Retailers? Or Can You Get It Cheaper Wholesale? MIT working paper.Google Scholar

Joskow, P. L. (2006). Markets for Power in the United States: An Interim Assessment. The Energy Journal, 27, 1–36.Google Scholar

Joskow, P. L. (2007). Competitive Electricity Markets and Investment in New Generating Capacity. In: The New Energy Paradigm, Helm, D., Ed. Oxford: Oxford University Press.Google Scholar

Joskow, P. L. (2008). Capacity Payments in Imperfect Electricity Markets: Need and Design. Utilities Policy, 16(3), 159–170.Google Scholar

Joskow, P. L. (2011). Comparing the Costs of Intermittent and Dispatchable Electricity Generating Technologies. American Economic Review, 100(3), 238–241.Google Scholar

Joskow, P. L. (2014). Incentive Regulation in Theory and Practice: Electricity Distribution and Transmission Networks. In Economic Regulation and Its Reform: What Have We Learned? Rose, N., Ed. Chicago: University of Chicago Press, pp. 291–344.Google Scholar

Joskow, P. L. and Tirole, J. (2000). Transmission Rights and Market Power on Electric Power Networks. The RAND Journal of Economics, 31(3), 450–487.Google Scholar

Joskow, P. L. and Tirole, J. (2005). Merchant Transmission Investment. The Journal of Industrial Economics, 53(2), 233–264.Google Scholar

Joskow, P. L. and Tirole, J. (2006). Retail Electricity Competition. The RAND Journal of Economics, 37(4), 799–815.Google Scholar

Joskow, P. L. and Tirole, J. (2007). Reliability and Competitive Electricity Markets. The RAND Journal of Economics, 38(1), 60–84.Google Scholar

Joskow, P. L. and Wolfram, C. D. (2012). Dynamic Pricing of Electricity. The American Economic Review, 102(3), 381–385.Google Scholar

Kahn, E. P. (1998). Numerical Techniques for Analyzing Market Power in Electricity. The Electricity Journal, 11(6), 34–43.Google Scholar

Kirschen, D. S. and Strbac, G. (2004). Fundamentals of Power System Economics. New York: John Wiley & Sons.Google Scholar

Klemperer, P. (1995). Competition When Consumers Have Switching Costs: An Overview with Applications to Industrial Organization, Macroeconomics, and International Trade. Review of Economic Studies, 62(4), 515–539.Google Scholar

Klemperer, P. D. and Meyer, M. A. (1989). Supply Function Equilibria in Oligopoly under Uncertainty. Econometrica, 57(6), 1243–1277.Google Scholar

Kolstad, C. (2011). Intermediate Environmental Economics: International Edition. Oxford: OUP Catalogue (2011).Google Scholar

Kunz, F., Neuhoff, K. and Rosellón, J. (2016). FTR Allocations to Ease Transition to Nodal Pricing: An Application to the German Power System. Energy Economics, 60, 176–185.Google Scholar

Laffont, J.-J. and Tirole, J. (1993). A Theory of Incentives in Regulation and Procurement. Cambridge, MA: The MIT Press.Google Scholar

Laffont, J.-J. and Tirole, J. (1996). Creating Competition through Interconnection: Theory and Practice. Journal of Regulatory Economics, 10(3), 227–256.Google Scholar

Laffont, J.-J. and Tirole, J. (2000). Competition in Telecommunications, Cambridge, MA: The MIT Press.Google Scholar

Landon, J. H. (1983). Theories of Vertical Integration and Their Application to the Electric Utility Industry. The Antitrust Bulletin, 28, 101–130.Google Scholar

Littlechild, S. (2000). Why We Need Electricity Retailers: A Reply to Joskow on Wholesale Spot Price Pass-Through, Cambridge Working Paper in Economics.Google Scholar

Littlechild, S. (2002). Competition in Retail Electricity Supply. Journal des Economistes et des Etudes Humaines, 12(2), 1–21.Google Scholar

Littlechild, S. (2009). Retail Competition in Electricity Markets: Expectations, Outcomes and Economics. Energy Policy, 37(2), 759–763.Google Scholar

Lyon, T. (1996). A Model of the Sliding Scale. Journal of Regulatory Economics, 9, 227–247.Google Scholar

Lucas, N. and Taylor, P. (1993). Characterizing Generator Behaviour: Bidding Strategies in the Pool: A Game Theory Analysis. Utilities Policy, 3(2), 129–135.Google Scholar

Luderer, G., Krey, V., Calvin, K., Merrick, J., Mima, S., Pietzcker, R. and Wada, K. (2014). The Role of Renewable Energy in Climate Stabilization: Results from the EMF27 Scenarios. Climatic Change, 123(3–4), 427–441.Google Scholar

Mansur, E. T., Mendelsohn, R. and Morrison, W. (2008). Climate Change Adaptation: A Study of Fuel Choice and Consumption in the US Energy Sector. Journal of Environmental Economics and Management, 55(2), 175–193.Google Scholar

Mastropietro, P, Rodilla, P. and Battle, C. (2017). Performance Incentives in Capacity Mechanism: Conceptual Considerations and Empirical Evidence. Economics of Energy and Environmental Policy, 6(1), 149–163.Google Scholar

McGowan, F. (1991). Controlling the Greenhouse Effect. The Role of Renewables. Energy Policy, 19(2), 110–118.Google Scholar

Metcalf, G. and Stock, J. (2015). The Role of Integrated Assessment Models in Climate Policy: A User’s Guide and Assessment. Discussion Paper 2015–68. Cambridge, MA: Harvard Project on Climate Agreements.Google Scholar

Mideksa, T. K. and Kallbekken, S. (2010). The Impact of Climate Change on the Electricity Market: A Review. Energy Policy, 38(7), 579–3585.Google Scholar

Milligan, M., Ela, E., Hodge, B.-M., Kirby, B., Lew, D., Clark, C., DeCesaro, J. and Lynn, K. (2011). Integration of Variable Generation, Cost-Causation, and Integration Costs. The Electricity Journal, 24(9), 51–63.Google Scholar

Mirabel, F. and Poudou, J. C. (2004). Mechanisms of Funding for Universal Service Obligations: The Electricity Case. Energy Economics, 26(5), 801–823.Google Scholar

Moretti, M., Djomo, S. N., Azadi, H., May, K., De Vos, K., Van Passel, S. and Witters, N. (2017). A Systematic Review of Environmental and Economic Impacts of Smart Grids. Renewable and Sustainable Energy Reviews, 68, 888–898.Google Scholar

NEA (2012). Nuclear Energy and Renewables: System Effects in Low-Carbon Electricity Systems, Nuclear Energy Agency (NEA/OECD), Paris.Google Scholar

NECA (2015). Transmission Pricing: Summary of International Experiences. Internal Report.Google Scholar

NEMA (1995). American National Standard Preferred Voltage Ratings for Electric Power Systems and Equipment (60 Hz). National Electrical Manufacturers Association, approved by American National Standards Institute, ANSI C84.1–1995. Rosslyn, VA.Google Scholar

Nanduri, V. and Das, T. K. (2007). A Reinforcement Learning Model to Assess Market Power under Auction-Based Energy Pricing. IEEE Transactions on Power Systems, 22(1), 85–95.Google Scholar

Newbery, D. M. and Pollitt, M. G. (1997). The Restructuring and Privatisation of Britain’s CEGB: Was It Worth It? The Journal of Industrial Economics, 45(3), 269–303.Google Scholar

Nordhaus, W. D., Houthakker, H. and Solow, R. (1973). The Allocation of Energy Resources. Brookings Papers on Economic Activity, 4(3), 529–576.Google Scholar

OECD (2003). Competition Issues in the Electricity Sector, DAFFE/COMP(2003)14.Google Scholar

OFGEM (2002). Review of Domestic Gas and Electricity Competition and Supply Price Regulation: Conclusion and Final Proposals, London.Google Scholar

OFGEM (2007). Domestic Retail Market Report, London.Google Scholar

OFGEM (2012). The Retail Market Review: Updated Domestic Proposals, London.Google Scholar

OFGEM (2017). Annual Report on the Operation of the Capacity Market in 2016/2017. Ofgem/Ofgem E-Serve 9 Millbank, London SW1P 3GE, available at www.ofgem.gov.uk.Google Scholar

Olmos, L. and Pérez-Arriaga, I. J. (2009). A Comprehensive Approach for Computation and Implementation of Efficient Electricity Transmission Network Charges. Energy Policy, 37(12), 5285–5295.Google Scholar

Oren, S. S. (1997). Economic Inefficiency of Passive Transmission Rights in Congested Electricity Systems with Competitive Generation. The Energy Journal 18(1), 63–83.Google Scholar

Oren, S. S., Spiller, P., Varaiya, P. and Wu, F. (1995). Nodal Prices and Transmission Rights: A Critical Appraisal. The Electricity Journal, 8(3), 24–35.Google Scholar

Panzar, J. (2000). A Methodology for Measuring the Costs of Universal Service Obligations. Information Economics and Policy, 12(3), 211–220.Google Scholar

Pérez-Arriaga, I. J. Ed. (2013). Regulation of the Power Sector. Dodrecht and London: Springer Verlag.Google Scholar

Perez-Arriaga, I. J. and Batlle, C. (2012). Impacts of Intermittent Renewables on Electricity Generation System Operation. Economics of Energy & Environmental Policy, 1(2).Google Scholar

Pollitt, M. (2008). Liberalization and Regulation in Electricity Systems: How Can We Get the Balance Right? In: Competitive Electricity Markets: Design, Implementation, Performance, Sioshansi, F. P., Ed. Oxford: Elsevier Science.Google Scholar

Rassenti, S. J., Smith, V. L. and Wilson, B. J. (2003). Discriminatory Price Auctions in Electricity Markets: Low Volatility at the Expense of High Price Levels. Journal of regulatory Economics, 23(2), 109–123.Google Scholar

Rebours, Y. and Kirschen, D. (2005). What Is Spinning Reserve? Manchester: University of Manchester.Google Scholar

Rebours, Y., Kirschen, D. S., Trotignon, M. and Rossignol, S. (2007). A Survey of Frequency and Voltage Control Ancillary Services – Part I: Technical Features. IEEE Transactions on Power Systems, 22(1), 350–357.Google Scholar

REN 21 (2017). REN 21, Renewables: Global Status Report, available at www.ren21.net/gsr-2017.Google Scholar

Rudnick, H., Soto, M. and Palma, R. (1999). Use of System Approaches for Transmission Open Access Pricing. International Journal of Electric Power and Energy Systems, 21(2), February 1999.Google Scholar

Shepherd, W. and Shepherd, D. (2014). Energy Studies (3rd ed). London: Imperial College Press.Google Scholar

Schmalensee, R. (1989). Good Regulatory Regimes. The RAND Journal of Economics, 20, 417–436.Google Scholar

Schmalensee, R. (2012). Evaluating Policies to Increase Electricity Generation from Renewable Energy. Review of Environmental Economics and Policy, 6(1), 45–64.Google Scholar

Schweppe, F. C., Caramanis, M. C., Tabors, R. D. and Bohn, R. E. (2013). Spot Pricing of Electricity. Dordrecht: Springer Science & Business Media.Google Scholar

Siano, P. (2014). Demand Response and Smart Grids: A Survey. Renewable and Sustainable Energy Reviews, 30, 461–478.Google Scholar

Sijm, J., Neuhoff, K., and Chen, Y. (2006). CO2 Cost Pass-Through and Windfall Profits in the Power Sector. Climate Policy, 6(1), 49–72.Google Scholar

Sijm, J. P. M. (2017). Cost and Revenue Related Impacts of Integrating Electricity from Variable Renewable Energy into the Power System: A Review of Recent Literature. Policy Studies, Vol. 2016, p. 2015.Google Scholar

Sims, R. E. H., Schock, R. N., Adegbululgbe, A., Fenhann, J., Konstantinaviciute, I., Moomaw, W., Nimir, H. B., Schlamadinger, B., Torres-Martínez, J., Turner, C., Uchiyama, Y., Vuori, S. J.V., Wamukonya, N. and Zhang, X. (2007). Energy Supply. In: Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Metz, B., Davidson, O. R., Bosch, P. R., Dave, R., Meyer, L. A., Eds. Cambridge, UK and New York: Cambridge University Press.Google Scholar

Singh, A., Frei, T., Chokani, N. and Abhari, R. S. (2016). Impact of Unplanned Power Flows in Interconnected Transmission Systems: Case Study of Central Eastern European Region. Energy Policy, 91, 287–303.Google Scholar

Smeers, Y. (1997). Computable Equilibrium Models and the Restructuring of the European Electricity and Gas Markets. The Energy Journal, 18(4), 1–31.Google Scholar

Spees, K., Newell, S. A. and Pfeifenberger, J. P. (2013). Capacity Markets: Lessons Learned from the First Decade. Economics of Energy & Environmental Policy, 2(2), 1–26.Google Scholar

Steiner, F. (2001). Regulation, Industry Structure and Performance in the Electricity Supply Industry. OECD Economic Studies, No. 32, 2001/I.Google Scholar

Stoft, S. (2002). Power System Economics. New York: IEEE-Wiley.Google Scholar

Stanfield, B., Mansur, E. T. and Saravia, C. (2008). Vertical Arrangements, Market Structure, and Competition: An Analysis of Restructured US Electricity Markets. The American Economic Review, 98(1), 237–266.Google Scholar

Su, X. (2015). Have Customers Benefited from Electricity Retail Competition? Journal of Regulatory Economics, 47(2), 146–182.Google Scholar

Surendran, R. Hogan, W. W., Hui, H. and Yu, C. (2016). Scarcity Pricing in ERCOT, FERC Technical Conference, June 27–29, 2016. Available at: www.ferc.gov/CalendarFiles/20160629114652–3-FERC2016_Scarcity Pricing_ERCOT_Resmi Surendran.pdf.Google Scholar

Taylor, B. N. and Thompson, A. (2008). The International System of Units (SI), NIST Special Publication 330, Gaithersburg, MD: National Institute of Standards and Technology.Google Scholar

Tol, R. S. J. (2014). Climate Economics: Economic Analysis of Climate, Climate Change and Climate Policy. London: Edward Elgar Publishing.Google Scholar

Twomey, P., Green, R. J., Neuhoff, K. and Newbery, D. (2006). A Review of the Monitoring of Market Power: The Possible Roles of TSOs in Monitoring for Market Power Issues in Congested Transmission Systems. Journal of Energy Literature, 11(2), 2005.Google Scholar

Ueckerdt, F. Hirth, L., Luderer, G., and Edenhofer, O. (2013). System LCOE XE “Levelized Cost of Electricity”: What Are the Costs of Variable Renewables? Energy, 25, 178–190.Google Scholar

Varian, H. (2014). Intermediate Microeconomics: A Modern Approach (9th Edition). New York and London: W. Norton & Company.Google Scholar

Vàsquez, C., Batlle, C., Lumbreras, S. and Perez Arriaga, I. J. (2006). Electricity Retail Regulation in a Context of Vertical Integration: The Debate on Regulated Tariffs. IIT Working Paper, IIT-06-028A.Google Scholar

Ventosa, M., Baıllo, A., Ramos, A. and Rivier, M. (2005). Electricity Market Modeling Trends. Energy Policy, 33(7), 897–913.Google Scholar

Viscusi, W. K., Harrington, J. E., and Vernon, J. M. (2005). Economics of Regulation and Antitrust. Cambridge, MA: The MIT Press.Google Scholar

von der Fehr, N. H. M. and Hansen, P. V. (2010). Electricity Retailing in Norway. The Energy Journal, 31(1), 26–45.Google Scholar

von der Fehr, N. H. M., and Harbord, D. (1993). Spot Market Competition in the UK Electricity Industry. The Economic Journal, 103(418), 531–546.Google Scholar

von der Fehr, N. H. M. and Harbord, D. (1995). Capacity Investment and Long-Run Efficiency in Market-Based Electricity Industries. Competition in the Electricity Supply Industry: Experience from Europe and the United States. University of Oslo, Norway, Working Paper.Google Scholar

Weron, R. (2007). Modelling and Forecasting Electricity Loads and Prices: A Statistical Approach. Chichester: John Wiley & Sons.Google Scholar

Weyant, J. (1996). Integrated Assessment of Climate Change: An Overview and Comparison of Approaches and Results. In Climate Change 1995: Economic and Social Dimensions of Climate Change. Edited by Bruce, J., Yi, H., and Haites, E., 367–439. Cambridge: Cambridge University Press.Google Scholar

Willems, B., Rumiantseva, I. and Weigt, H. (2009). Cournot Versus Supply Functions: What Does the Data Tell Us? Energy Economics, 31(1), 38–47.Google Scholar

Wilson, C. and Waddams Price, C. (2010). Do Consumers Switch to the Best Supplier? Oxford Economic Papers, 62(4), 647–668.Google Scholar

Wolak, F. A., and Patrick, R. H. (1996). Industry Structure and Regulation in the England and Wales Electricity Market. In Pricing and Regulatory Innovations Under Increasing Competition, New York: Springer, pp. 65–90.Google Scholar

Woerdman, E., Couwenberg, O., and Nentjes., A. (2009). Energy Prices and Emissions Trading: Windfall Profits from Grandfathering? European Journal of Law and Economics, 28(2), 185–202.Google Scholar

Wolak, F. A. (2014). Regulating Competition in Wholesale Electricity Supply. In Economic Regulation and Its Reform: What Have We Learned? Chicago: University of Chicago Press, pp. 195–289.Google Scholar

Wolfram, C. D. (1997). Strategic Bidding in a Multi-Unit Auction: An Empirical Analysis of Bids to Supply Electricity. National Bureau of Economic Research Working Paper no. w6269.Google Scholar

Zhang, Y., Chen, W. and Gao, W. (2017). A Survey on the Development Status and Challenges of Smart Grids in Main Driver Countries. Renewable and Sustainable Energy Reviews, 79, 137–147.Google Scholar

ACER/CEER (2013). Annual Report on the Results of Monitoring the Internal Electricity and Natural Gas Markets in 2012, November.Google Scholar

ACER/CEER (2016). Annual Report on the Results of Monitoring the Internal Electricity and Natural Gas Markets in 2015, November.Google Scholar

Aid, R. (2015). Electricity Derivatives. London: Springer Verlag.Google Scholar

Anton, J. J., Vander Weide, J. H. and Vettas, N. (2002). Entry Auctions and Strategic Behavior under Cross-Market Price Constraints. International Journal of Industrial Organization, 20(5), 611–629.Google Scholar

A. T. Kearney Energy Transition Institute (2015). Smart Grids (Introduction), Factbook.Google Scholar

Averch, H. and Johnson, L. L. (1962). Behavior of the Firm under Regulatory Constraint. American Economic Review, 52, 1059–1069.Google Scholar

Batlle, C., Pérez-Arriaga, I. J. and Zambrano-Barragán, P. (2012). Regulatory Design for RES-E Support Mechanisms: Learning Curves, Market Structure, and Burden-Sharing. Energy Policy, 41, 212–220.Google Scholar

Baumol, W. J. and Bradford, D. F. (1970). Optimal Departures from Marginal Cost Pricing. The American Economic Review, 60(3), 265–283.Google Scholar

Benth, F. E., Benth, J. S., Koekebakker, S. (2008). Stochastic Modeling of Electricity and Related Markets. Singapore: World Scientific.Google Scholar

Biggar, D. R. and Hesamzadeh, M. R. (2014). The Economics of Electricity Markets. New York: Wiley-IEEE Press.Google Scholar

Blumseck, S. (2010). Introduction to Electricity Markets, available at www.e-education.psu.edu/ebf483/.Google Scholar

Bohn, E., Caramanis, M., Schweppe, F. and Tabors, R. (1988). Spot Pricing of Electricity. Dordrecht: Springer Science & Business Media.Google Scholar

Bohn, R. E., Caramanis, M. C., and Schweppe, F. C. (1984). Optimal Pricing in Electrical Networks Over Space and Time. The RAND Journal of Economics, 360–376.Google Scholar

Boiteux, M. (1960). Peak Load Pricing. Journal of Business, 33, 157–179 [translated from the original in French published in 1949].Google Scholar

Borenstein, S. (2002). The Trouble with Electricity Markets: Understanding California’s Restructuring Disaster. The Journal of Economic Perspectives, 16(1), 191–211.Google Scholar

Borenstein, S. (2005a). Time-Varying Retail Electricity Prices: Theory and Practice. Electricity Deregulation: Choices and Challenges, 317–357.Google Scholar

Borenstein, S. (2005b). The Long-Run Efficiency of Real-Time Electricity Pricing. The Energy Journal, 93–116.CrossRefGoogle Scholar

Borenstein, S. (2012). The Private and Public Economics of Renewable Electricity Generation. The Journal of Economic Perspectives, 26(1), 67–92.Google Scholar

Borenstein, S. and Bushnell, J. (1999). An Empirical Analysis of the Potential for Market Power in California’s Electricity Industry. The Journal of Industrial Economics, 47(3), 285–323.Google Scholar

Borenstein, S., and Bushnell, J. (2015). The US Electricity Industry after Twenty Years of Restructuring. Annual Review of Economics, 7(1), 437–463.Google Scholar

Borenstein, S., Bushnell, J. and Knittel, C. R. (1999). Market Power in Electricity Markets: Beyond Concentration Measures. The Energy Journal, 20(4), 65–88.Google Scholar

Borenstein, S., Bushnell, J., Kahn, E. and Stoft, S. (1995). Market Power in California Electricity Markets. Utilities Policy, 5(3), 219–236.Google Scholar

Borenstein, S., Bushnell, J. and Stoft, S. (2000). The Competitive Effects of Transmission Capacity in a Deregulated Electricity Industry. The RAND Journal of Economics, 31(2), 294–325.Google Scholar

Borenstein, S., and Holland, S. P. (2005). On the Efficiency of Competitive Electricity Markets with Time-Invariant Retail Prices. The RAND Journal of Economics, 36(3), 469–493.Google Scholar

Bower, J. and Bunn, D. W. (2000). Model-Based Comparisons of Pool and Bilateral Markets for Electricity. The Energy Journal, 1–29.Google Scholar

Brennan, T. (2006). Consumer Preference Not to Choose: Methodological and Policy Implications. Energy Policy, 35(3), 1616–1627.Google Scholar

Brundtland, G., Khalid, M., Agnelli, S., Al-Athel, S., Chidzero, B., Fadika, L. and Singh, M. (1987). Our Common Future, The Brundtland Report.Google Scholar

Brunekreeft, G., and Newbery, D. (2006). Should Merchant Transmission Investment Be Subject to a Must-Offer Provision? Journal of Regulatory Economics, 30(3), 233–260.Google Scholar

Bushnell, J. (1999) Transmission Rights and Market Power. Electricity Journal, 12(8), 77–85.Google Scholar

Bushnell, J. and Stoft, S. (1996). Electric Grid Investment under a Contract Network Regime. Journal of Regulatory Economics, 10, 61–79.Google Scholar

Bushnell, J. and Stoft, S. (1997). Improving Private Incentives for Electric Grid Investment. Resource and Energy Economics, 19, 85–108.Google Scholar

Cabral, L. M. B. (2000). Introduction to Industrial Organization. Cambridge, MA: The MIT Press.Google Scholar

Caramanis, M. C., Bohn, R. E. and Schweppe, F. C. (1982). Optimal Spot Pricing: Practice and Theory. IEEE Transactions on Power Apparatus and Systems, 9, 3234–3245.Google Scholar

Cardell, J. B., Hitt, C. C. and Hogan, W. W. (1997). Market Power and Strategic Interaction in Electricity Networks. Resource and Energy Economics, 19(1–2), 109–137.Google Scholar

Carlton, D. W. and Perloff, J. M. (2015). Modern Industrial Organization. Chapter 11, Natural Monopoly. London: Pearson Higher Education.Google Scholar

Chao, H. P. and Peck, S. (1996). A Market Mechanism for Electric Power Transmission. Journal of Regulatory Economics, 10(1), 25–59.Google Scholar

Choné, P., Flochel, L. and Perrot, A. (2002). Allocating and Funding Universal Service Obligations in a Competitive Market. International Journal of Industrial Organization, 20(9), 1247–1276.Google Scholar

Christen Associates in Energy Consulting (2016). Retail Choice in Electricity: What Have We Learned in 20 Years?, available at www.emrf.net/uploads/3/4/4/6/34469793/emrf_paper_retail_choice_in_electricity_160202_february_2016.pdf.Google Scholar

Christensen, L. R., and Greene, W. H. (1976). Economies of Scale in US Electric Power Generation. Journal of Political Economy, 84(4), 655–676.Google Scholar

Colak, I., Fulli, G., Sagiroglu, S., Yesilbudak, M. and Covrig, C. F. (2015). Smart Grid Projects in Europe: Current Status, Maturity and Future Scenarios. Applied Energy, 152, 58–70.Google Scholar

Competition and Market Authority (2015). Locational Prices in Britain, Great, available at https://assets.publishing.service.gov.uk/media/54eb5da5ed915d0cf7000010/Locational_pricing.pdf.Google Scholar

Concettini, S., and Creti, A. (2014). Liberalization of Electricity Retailing in Europe: What to Do Next? Energy Studies Review, 21(1), 21–35.Google Scholar

Considine, T. J. (2000). The Impacts of Weather Variations on Energy Demand and Carbon Emissions. Resource and Energy Economics, 22(4), 295–314.Google Scholar

Crampes, C. and Creti, A. (2005). Capacity Competition in Electricity Markets. Economia delle fonti di energia e dell’ambiente, 2, 59–83.Google Scholar

Crampes, C. and Laffont, J.-J. (2001). Transport Pricing in the Electricity Industry. Oxford Review of Economic Policy, 17(3), 313–328.Google Scholar

Cramton, P. (2004). Competitive Bidding Behavior in Uniform-Price Auction Markets. In System Sciences, 2004. Proceedings of the 37th Annual Hawaii International Conference on IEEE, 11–15.Google Scholar

Cramton, P. and Stoft, S. (2006). The Convergence of Market Designs for Adequate Generating Capacity. White Paper for the California Electricity Oversight Board, March 2006. Available at http://web.mit.edu/ceepr/www/publications/workingpapers/2006–007.pdf.Google Scholar

Cramton, P. and Ockenfels, A. (2012). Economics and Design of Capacity Markets for the Power Sector. Zeitschrift für Energiewirtschaft, 36(2), 113–134.Google Scholar

Cramton, P., Ockenfels, A. and Stoft, S. (2013). Capacity Market Fundamentals. Economics of Energy & Environmental Policy, 2(2), 27–46.Google Scholar

Crew, M., Fernando, C. and Kleindorfer, P. (1995). The Theory of Peak-load Pricing: A Survey. Journal of Regulatory Economics, 8, 215–248.Google Scholar

Dasgupta, P. and Heal, G. (1974). The Optimal Depletion of Exhaustible Resources. The Review of Economic Studies 41, 3–28.CrossRefGoogle Scholar

Day, C. J., Hobbs, B. F. and Pang, J. S. (2002). Oligopolistic Competition in Power Networks: A Conjectured Supply Function Approach. IEEE Transactions on power systems, 17(3), 597–607.Google Scholar

Dechenaux, E. and Kovenock, D. (2007). Tacit Collusion and Capacity Withholding in Repeated Uniform Price Auctions. The RAND Journal of Economics, 38(4), 1044–1069.Google Scholar

Defeuilley, C. (2009). Retail Competition in Electricity Markets. Energy Policy, 37(2), 377–386.Google Scholar

Bank, Deutsche (2016). Solar grid parity in a low oil price era, available at www.db.com/cr/en/concrete-deutsche-bank-report-solar-grid-parity-in-a-low-oil-price-era.htm.Google Scholar

Energy, DG (2016). Statistical Pocketbook. Bruxelles, BG: European Commission.Google Scholar

DOE (2000). Horizontal Market Power in Restructured Electricity Markets, Report. Washington, DC: Department of Energy.Google Scholar

Durmayaz, A. and Salim Sogut, O. (2006). Influence of Cooling Water Temperature on the Efficiency of a Pressurized‐Water Reactor Nuclear‐Power Plant. International Journal of Energy Research, 30(10), 799–810.Google Scholar

Edenhofer, O., Hirth, L., Knopf, B., Pahle, M., Schlömer, S., Schmid, E. and Ueckerdt, F. (2013). On the Economics of Renewable Energy Sources. Energy Economics, 40, S12–S23.Google Scholar

Foundation, Edison (2016). IEI Report, Electric Company Smart Meter Deployment.Google Scholar

EIA (2017). Levelized Cost and Levelized Avoided Cost of New Generation Resources in the Annual Outlook, Energy 2017, available at www.eia.gov/outlooks/aeo/pdf/electricity_generation.pdf.Google Scholar

Ellerman, A. D. and Buchner, B. (2007). The European Union Emissions Trading Scheme: Origins, Allocation, and Early Results. Review of Environmental Economics and Policy, 1(1) 66–87.Google Scholar

Ellerman, A. D. and Joskow, P. (2008). The European Union’s Emissions Trading System in Perspective. Arlington, VA: Pew Center on Global Climate Change.Google Scholar

Ellerman, A. D., Convery, F. J. and De Perthuis, C. (2010). Pricing Carbon: The European Union Emissions Trading Scheme. Cambridge: Cambridge University Press.Google Scholar

Elton, E. J, Gruber, M. J., Brown, S. J. and Goetzmann, W. N. (2014). Modern Portfolio Theory and Investment Analysis (9th ed.). New York: John Wiley & Sons.Google Scholar

ENTSO-E (2015). Entso at a Glance, available at www.entsoe.eu/Documents/Publications/ENTSO-E%20general%20publications/entsoe_at_a_glance_2015_web.pdf.Google Scholar

Eskeland, G. S., Mideksa, T. K. (2009). Climate Change Adaptation and Residential Electricity Demand in Europe. CICERO Working Paper.Google Scholar

Eskeland, G. S., Rive, N. A., and Mideksa, T. K. (2012). Europe’s Climate Goals and the Electricity Sector. Energy Policy, 41, 200–211.Google Scholar

Eurelectric (2017). Dynamic Pricing in Electricity Supply, Position paper, available at www.eemg-mediators.eu/downloads/dynamic_pricing_in_electricity_supply-2017–2520-0003–01-e.pdf.Google Scholar

European Commission (2001). Analysis of Electricity Network Capacities and Identification of Congestion – Final Report. Brussels.Google Scholar

European Commission (2009). Regulation (EC) No 714/2009 of the European Parliament and of the Council of 13 July 2009 on Conditions for Access to the Network for Cross-Border Exchanges in Electricity and Repealing Regulation (EC) No 1228/2003.Google Scholar

European Commission (2014). Identification of Appropriate Generation and System Adequacy Standards for the Internal Electricity Market. Final Report. Paper prepared by AF Mercados, E-Bridge, REF-E. EUR 2015.1392 EN. Luxembourg: Publications Office of the European Union. Doi:10.2832/089498.Google Scholar

European Commission (2015). Ex-post Investigation of Cost Pass-through in the EU ETS, CE Delft and Oeako Institute Report, EC Press.Google Scholar

Everett, B, Boyle, G, Peake, S. and Ramage, J. (2011). Energy Systems and Sustainability. Power for a Sustainable Future (2nd Edition). Oxford: Oxford University Press.Google Scholar

Fabra, N., von der Fehr, N. H. M. and Harbord, D. (2006). Designing Electricity Auctions. The RAND Journal of Economics, 37(1), 23–46.Google Scholar

Fabra, N., von der Fehr, N. H. M. and de Frutos, M. Á. (2011). Market Design and Investment Incentives. The Economic Journal, 121(557), 1340–1360.Google Scholar

Fang, X., Misra, S., Xue, G. and Yang, D. (2012). Smart Grid – The New and Improved Power Grid: A Survey. IEEE Communications Surveys & Tutorials, 14(4), 944–980.Google Scholar

Farhangi, H. (2010). The Path of the Smart Grid. IEEE Power and Energy Magazine, 8(1), 18–28.Google Scholar

Faulhaber, G. R. (1975). Cross-Subsidization: Pricing in Public Enterprises. The Economic Review, 65(5), 966–977.Google Scholar

FERC (2017). Staff Issues Assessment of Demand Response and Advanced Metering, Report available at www.ferc.gov/industries/electric/indus-act/demand-response/dem-res-adv-metering.asp.Google Scholar

Fouquet, R. Ed. (2015). Handbook of Energy and Climate Change, London: Edward Elgar Publishing.Google Scholar

Gangale, F., Vasiljevska, J., Covrig, F., Mengolini, A. and Fulli, G. (2017). Smart grid projects outlook 2017: Facts, figures and trends in Europe, EUR 28614 EN, doi:10.2760/15583.Google Scholar

Garfield, P. J., and Lovejoy, W. F. (1964). Public Utility Economics. Englewood Cliffs, NJ: Prentice-Hall.Google Scholar

Giordano, V. and Sanchèz, J. (2012). Guidelines for conducting a cost-benefit analysis of Smart Grid projects, JRC Reports, European Commission.Google Scholar

Giulietti, M., Grossi, L. and Waterson, M. (2010). Price Transmission in the UK Electricity Market: Was NETA Beneficial?, Energy Economics, 32(5), 1165–1174.Google Scholar

Goulding, A. J., Rufin, C. and Swinand, G. (1999). The Role of Vibrant Retail Electricity Markets in Assuring that Wholesale Power Markets Operate Effectively. The Electricity Journal, 12(10), 61–73.Google Scholar

Green, R. J. (1996). Increasing Competition in the British Electricity Spot Market. Journal of Industrial Economics, (44), 205–216.Google Scholar

Green, R. J. (1997). Electricity Transmission Pricing: An International Comparison. Utilities Policy, 6(3), 177–184.Google Scholar

Green, R. J. and Newbery, D. M. (1992). Competition in the British Electricity Spot Market. Journal of Political Economy, 100(5), 929–953.CrossRefGoogle Scholar

Golombek, R., Kittelsen, S. A. C. and Haddeland, I. (2012). Climate Change: Impacts on Electricity Markets in Western Europe. Climatic Change 113(2), 357–370.Google Scholar

Hattori, T. and Tsutsui, M. (2004). Economic Impact of Regulatory Reforms in the Electricity Supply Industry: A Panel Data Analysis for OECD Countries. Energy Policy, 32(6), 823–832.Google Scholar

Heal, G. (2009). The Economics of Renewable Energy. National Bureau of Economic Research, Working Paper No. w15081.Google Scholar

Hirst, E. and Kirby, B. (2001). Key Transmission Planning Issues. The Electricity Journal, 14(8), 59–70.Google Scholar

Hirth, L. (2012). Integration Costs and the Value of Wind Power: Thoughts on a valuation framework for variable renewable electricity sources, Potsdam Institute for Climate Impact Research and Vattenfall GmbH.Google Scholar

Hirth, L. (2013). The Market Value of Variable Renewables: The Effect of Solar and Wind Power Variability on Their Relative Price. Energy Economics, 38(2), 218–236.Google Scholar

Hirth, L., Ueckerdt, F. and Edenhofer, O. (2015). Integration Costs Revisited: An Economic Framework for Wind and Solar Variability. Renewable Energy, 74, 925–939.Google Scholar

Hogan, W. W. (1998). Nodes and Zones in Electricity Markets: Seeking Simplified Congestion Pricing. In: Designing Competitive Electricity Markets, Hung-po, C. and Huntington, H. G., Eds. New York: Springer.Google Scholar

Hogan, W. W. (1992). Contract Networks for Electric Power Transmission. Journal of Regulatory Economics, 4, 211–242.Google Scholar

Hogan, W. W. (2005). On An “Energy Only” Electricity Market Design for Resource Adequacy, Center for Business and Government, John F. Kennedy School of Government, Harvard University, Cambridge (MA). Available at www.whogan.com.Google Scholar

Hogan, W. W. (2013). Electricity Scarcity Pricing through Operating Reserves. Economics of Energy & Environmental Policy, 2(2), 65–87.Google Scholar

Hogan, W. W. (2015). Electricity Market Design Energy and Capacity Markets and Resource Adequacy, EUCI Conference, Capacity Markets: Gauging Their Real Impact on Resource Development and Reliability, Cambridge, MA. Available at www.whogan.com.Google Scholar

Hogan, W. W. and Pope, S. L. (2017). Priorities for the Evolution of an Energy-only Electricity Market Design in ERCOT. FTI Consulting. Report. Available at www.whogan.com.Google Scholar

Holland, S. P. and Mansur, E. T. (2006). The Short-Run Effects of Time-Varying Prices in Competitive Electricity Markets. The Energy Journal, 127–155.Google Scholar

Holland, S. P. and Mansur, E. T. (2008). Is Real-Time Pricing Green? The Environmental Impacts of Electricity Demand Variance. The Review of Economics and Statistics, 90(3), 550–561.Google Scholar

Holttinen, H., Meibom, P., Orths, P., Lange, A., O’Malley, B., Tande, M., Stanqueiro, J., Gomez, A., Söder, E., Strabac, L., Smith, G., J. and van Hulle, F. (2011). Impacts of Large Amounts of Wind Power on Design and Operation of Power Systems, Results of IEA Collaboration. Wind Energy, 14, 179–192.Google Scholar

Hortaçsu, A., Madanizadeh, S. A. and Puller, S. L. (2017). Power to Choose? An Analysis of Consumer Inertia in the Residential Electricity Market. National Bureau of Economic Research, Working Paper no. w20988.Google Scholar

Hotelling, H. (1931). The Economics of Exhaustible Resources. Journal of Political Economy, 39(2), 137–175.Google Scholar

Hu, Z., Kim, J. H., Wang, J. and Byrne, J. (2015). Review of Dynamic Pricing Programs in the US and Europe: Status Quo and Policy Recommendations. Renewable and Sustainable Energy Reviews, 42, 743–751.Google Scholar

Hull, J. C. (2015). Options, Futures and Other Derivatives (9th ed.). Upper Saddle River, NJ: Pearson Prentice Hall.Google Scholar

Hunt, S. (2002). Making Competition Work in Electricity. Chichester: John Wiley & Sons.Google Scholar

Hunt, S. and Shuttleworth, G. (1996). Competition and Choice in Electricity, Chichester, USA: John Wiley & Sons.Google Scholar

IEA (2011). Technology Roadmap: Smart Grids, International Energy Agency (IEA/OECD), Paris.Google Scholar

IEA (2014). The Power of Transformation: Wind, Sun and the Economics of Flexible Power Systems, International Energy Agency (IEA/OECD), Paris.Google Scholar

IEA (2017a). Key World Energy Statistics. Paris: International Energy Agency, OECD/IEA.Google Scholar

IEA (2017b). Renewable information. www.iea.org/publications/freepublications/publication/RenewablesInformation2017Overview.pdf.Google Scholar

IEEE (1996). IEEE Standard Dictionary of Electrical and Electronic Terms. Piscataway, NJ: IEEE Std 100–1996, Institute of Electrical and Electronics Engineers.Google Scholar

IRENA (2017). Perspectives for the Energy Transition: Investment Needs for a Low-Carbon Energy System, Report, OECD Press.Google Scholar

Jamasb, T. and Pollitt, M. (2005). Electricity Market Reform in the European Union: Review of Progress towards Liberalization and Integration. The Energy Journal, 26(Special Issue), 11–41.Google Scholar

Joskow, P. L. (1996). Introducing Competition into Regulated Network Industries: From Hierarchies to Markets in Electricity. Cambridge. MA: The MIT Press.Google Scholar

Joskow, P. L. (2000). Why Do We Need Electricity Retailers? Or Can You Get It Cheaper Wholesale? MIT working paper.Google Scholar

Joskow, P. L. (2006). Markets for Power in the United States: An Interim Assessment. The Energy Journal, 27, 1–36.Google Scholar

Joskow, P. L. (2007). Competitive Electricity Markets and Investment in New Generating Capacity. In: The New Energy Paradigm, Helm, D., Ed. Oxford: Oxford University Press.Google Scholar

Joskow, P. L. (2008). Capacity Payments in Imperfect Electricity Markets: Need and Design. Utilities Policy, 16(3), 159–170.Google Scholar

Joskow, P. L. (2011). Comparing the Costs of Intermittent and Dispatchable Electricity Generating Technologies. American Economic Review, 100(3), 238–241.Google Scholar

Joskow, P. L. (2014). Incentive Regulation in Theory and Practice: Electricity Distribution and Transmission Networks. In Economic Regulation and Its Reform: What Have We Learned? Rose, N., Ed. Chicago: University of Chicago Press, pp. 291–344.Google Scholar

Joskow, P. L. and Tirole, J. (2000). Transmission Rights and Market Power on Electric Power Networks. The RAND Journal of Economics, 31(3), 450–487.Google Scholar

Joskow, P. L. and Tirole, J. (2005). Merchant Transmission Investment. The Journal of Industrial Economics, 53(2), 233–264.Google Scholar

Joskow, P. L. and Tirole, J. (2006). Retail Electricity Competition. The RAND Journal of Economics, 37(4), 799–815.Google Scholar

Joskow, P. L. and Tirole, J. (2007). Reliability and Competitive Electricity Markets. The RAND Journal of Economics, 38(1), 60–84.Google Scholar

Joskow, P. L. and Wolfram, C. D. (2012). Dynamic Pricing of Electricity. The American Economic Review, 102(3), 381–385.Google Scholar

Kahn, E. P. (1998). Numerical Techniques for Analyzing Market Power in Electricity. The Electricity Journal, 11(6), 34–43.Google Scholar

Kirschen, D. S. and Strbac, G. (2004). Fundamentals of Power System Economics. New York: John Wiley & Sons.Google Scholar

Klemperer, P. (1995). Competition When Consumers Have Switching Costs: An Overview with Applications to Industrial Organization, Macroeconomics, and International Trade. Review of Economic Studies, 62(4), 515–539.Google Scholar

Klemperer, P. D. and Meyer, M. A. (1989). Supply Function Equilibria in Oligopoly under Uncertainty. Econometrica, 57(6), 1243–1277.Google Scholar

Kolstad, C. (2011). Intermediate Environmental Economics: International Edition. Oxford: OUP Catalogue (2011).Google Scholar

Kunz, F., Neuhoff, K. and Rosellón, J. (2016). FTR Allocations to Ease Transition to Nodal Pricing: An Application to the German Power System. Energy Economics, 60, 176–185.Google Scholar

Laffont, J.-J. and Tirole, J. (1993). A Theory of Incentives in Regulation and Procurement. Cambridge, MA: The MIT Press.Google Scholar

Laffont, J.-J. and Tirole, J. (1996). Creating Competition through Interconnection: Theory and Practice. Journal of Regulatory Economics, 10(3), 227–256.Google Scholar

Laffont, J.-J. and Tirole, J. (2000). Competition in Telecommunications, Cambridge, MA: The MIT Press.Google Scholar

Landon, J. H. (1983). Theories of Vertical Integration and Their Application to the Electric Utility Industry. The Antitrust Bulletin, 28, 101–130.Google Scholar

Littlechild, S. (2000). Why We Need Electricity Retailers: A Reply to Joskow on Wholesale Spot Price Pass-Through, Cambridge Working Paper in Economics.Google Scholar

Littlechild, S. (2002). Competition in Retail Electricity Supply. Journal des Economistes et des Etudes Humaines, 12(2), 1–21.Google Scholar

Littlechild, S. (2009). Retail Competition in Electricity Markets: Expectations, Outcomes and Economics. Energy Policy, 37(2), 759–763.Google Scholar

Lyon, T. (1996). A Model of the Sliding Scale. Journal of Regulatory Economics, 9, 227–247.Google Scholar

Lucas, N. and Taylor, P. (1993). Characterizing Generator Behaviour: Bidding Strategies in the Pool: A Game Theory Analysis. Utilities Policy, 3(2), 129–135.Google Scholar

Luderer, G., Krey, V., Calvin, K., Merrick, J., Mima, S., Pietzcker, R. and Wada, K. (2014). The Role of Renewable Energy in Climate Stabilization: Results from the EMF27 Scenarios. Climatic Change, 123(3–4), 427–441.Google Scholar

Mansur, E. T., Mendelsohn, R. and Morrison, W. (2008). Climate Change Adaptation: A Study of Fuel Choice and Consumption in the US Energy Sector. Journal of Environmental Economics and Management, 55(2), 175–193.Google Scholar

Mastropietro, P, Rodilla, P. and Battle, C. (2017). Performance Incentives in Capacity Mechanism: Conceptual Considerations and Empirical Evidence. Economics of Energy and Environmental Policy, 6(1), 149–163.Google Scholar

McGowan, F. (1991). Controlling the Greenhouse Effect. The Role of Renewables. Energy Policy, 19(2), 110–118.Google Scholar

Metcalf, G. and Stock, J. (2015). The Role of Integrated Assessment Models in Climate Policy: A User’s Guide and Assessment. Discussion Paper 2015–68. Cambridge, MA: Harvard Project on Climate Agreements.Google Scholar

Mideksa, T. K. and Kallbekken, S. (2010). The Impact of Climate Change on the Electricity Market: A Review. Energy Policy, 38(7), 579–3585.Google Scholar

Milligan, M., Ela, E., Hodge, B.-M., Kirby, B., Lew, D., Clark, C., DeCesaro, J. and Lynn, K. (2011). Integration of Variable Generation, Cost-Causation, and Integration Costs. The Electricity Journal, 24(9), 51–63.Google Scholar

Mirabel, F. and Poudou, J. C. (2004). Mechanisms of Funding for Universal Service Obligations: The Electricity Case. Energy Economics, 26(5), 801–823.Google Scholar

Moretti, M., Djomo, S. N., Azadi, H., May, K., De Vos, K., Van Passel, S. and Witters, N. (2017). A Systematic Review of Environmental and Economic Impacts of Smart Grids. Renewable and Sustainable Energy Reviews, 68, 888–898.Google Scholar

NEA (2012). Nuclear Energy and Renewables: System Effects in Low-Carbon Electricity Systems, Nuclear Energy Agency (NEA/OECD), Paris.Google Scholar

NECA (2015). Transmission Pricing: Summary of International Experiences. Internal Report.Google Scholar

NEMA (1995). American National Standard Preferred Voltage Ratings for Electric Power Systems and Equipment (60 Hz). National Electrical Manufacturers Association, approved by American National Standards Institute, ANSI C84.1–1995. Rosslyn, VA.Google Scholar

Nanduri, V. and Das, T. K. (2007). A Reinforcement Learning Model to Assess Market Power under Auction-Based Energy Pricing. IEEE Transactions on Power Systems, 22(1), 85–95.Google Scholar

Newbery, D. M. and Pollitt, M. G. (1997). The Restructuring and Privatisation of Britain’s CEGB: Was It Worth It? The Journal of Industrial Economics, 45(3), 269–303.Google Scholar

Nordhaus, W. D., Houthakker, H. and Solow, R. (1973). The Allocation of Energy Resources. Brookings Papers on Economic Activity, 4(3), 529–576.Google Scholar

OECD (2003). Competition Issues in the Electricity Sector, DAFFE/COMP(2003)14.Google Scholar

OFGEM (2002). Review of Domestic Gas and Electricity Competition and Supply Price Regulation: Conclusion and Final Proposals, London.Google Scholar

OFGEM (2007). Domestic Retail Market Report, London.Google Scholar

OFGEM (2012). The Retail Market Review: Updated Domestic Proposals, London.Google Scholar

OFGEM (2017). Annual Report on the Operation of the Capacity Market in 2016/2017. Ofgem/Ofgem E-Serve 9 Millbank, London SW1P 3GE, available at www.ofgem.gov.uk.Google Scholar

Olmos, L. and Pérez-Arriaga, I. J. (2009). A Comprehensive Approach for Computation and Implementation of Efficient Electricity Transmission Network Charges. Energy Policy, 37(12), 5285–5295.Google Scholar

Oren, S. S. (1997). Economic Inefficiency of Passive Transmission Rights in Congested Electricity Systems with Competitive Generation. The Energy Journal 18(1), 63–83.Google Scholar

Oren, S. S., Spiller, P., Varaiya, P. and Wu, F. (1995). Nodal Prices and Transmission Rights: A Critical Appraisal. The Electricity Journal, 8(3), 24–35.Google Scholar

Panzar, J. (2000). A Methodology for Measuring the Costs of Universal Service Obligations. Information Economics and Policy, 12(3), 211–220.Google Scholar

Pérez-Arriaga, I. J. Ed. (2013). Regulation of the Power Sector. Dodrecht and London: Springer Verlag.Google Scholar

Perez-Arriaga, I. J. and Batlle, C. (2012). Impacts of Intermittent Renewables on Electricity Generation System Operation. Economics of Energy & Environmental Policy, 1(2).Google Scholar

Pollitt, M. (2008). Liberalization and Regulation in Electricity Systems: How Can We Get the Balance Right? In: Competitive Electricity Markets: Design, Implementation, Performance, Sioshansi, F. P., Ed. Oxford: Elsevier Science.Google Scholar

Rassenti, S. J., Smith, V. L. and Wilson, B. J. (2003). Discriminatory Price Auctions in Electricity Markets: Low Volatility at the Expense of High Price Levels. Journal of regulatory Economics, 23(2), 109–123.Google Scholar

Rebours, Y. and Kirschen, D. (2005). What Is Spinning Reserve? Manchester: University of Manchester.Google Scholar

Rebours, Y., Kirschen, D. S., Trotignon, M. and Rossignol, S. (2007). A Survey of Frequency and Voltage Control Ancillary Services – Part I: Technical Features. IEEE Transactions on Power Systems, 22(1), 350–357.Google Scholar

REN 21 (2017). REN 21, Renewables: Global Status Report, available at www.ren21.net/gsr-2017.Google Scholar

Rudnick, H., Soto, M. and Palma, R. (1999). Use of System Approaches for Transmission Open Access Pricing. International Journal of Electric Power and Energy Systems, 21(2), February 1999.Google Scholar

Shepherd, W. and Shepherd, D. (2014). Energy Studies (3rd ed). London: Imperial College Press.Google Scholar

Schmalensee, R. (1989). Good Regulatory Regimes. The RAND Journal of Economics, 20, 417–436.Google Scholar

Schmalensee, R. (2012). Evaluating Policies to Increase Electricity Generation from Renewable Energy. Review of Environmental Economics and Policy, 6(1), 45–64.Google Scholar

Schweppe, F. C., Caramanis, M. C., Tabors, R. D. and Bohn, R. E. (2013). Spot Pricing of Electricity. Dordrecht: Springer Science & Business Media.Google Scholar

Siano, P. (2014). Demand Response and Smart Grids: A Survey. Renewable and Sustainable Energy Reviews, 30, 461–478.Google Scholar

Sijm, J., Neuhoff, K., and Chen, Y. (2006). CO2 Cost Pass-Through and Windfall Profits in the Power Sector. Climate Policy, 6(1), 49–72.Google Scholar

Sijm, J. P. M. (2017). Cost and Revenue Related Impacts of Integrating Electricity from Variable Renewable Energy into the Power System: A Review of Recent Literature. Policy Studies, Vol. 2016, p. 2015.Google Scholar

Sims, R. E. H., Schock, R. N., Adegbululgbe, A., Fenhann, J., Konstantinaviciute, I., Moomaw, W., Nimir, H. B., Schlamadinger, B., Torres-Martínez, J., Turner, C., Uchiyama, Y., Vuori, S. J.V., Wamukonya, N. and Zhang, X. (2007). Energy Supply. In: Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Metz, B., Davidson, O. R., Bosch, P. R., Dave, R., Meyer, L. A., Eds. Cambridge, UK and New York: Cambridge University Press.Google Scholar

Singh, A., Frei, T., Chokani, N. and Abhari, R. S. (2016). Impact of Unplanned Power Flows in Interconnected Transmission Systems: Case Study of Central Eastern European Region. Energy Policy, 91, 287–303.Google Scholar

Smeers, Y. (1997). Computable Equilibrium Models and the Restructuring of the European Electricity and Gas Markets. The Energy Journal, 18(4), 1–31.Google Scholar

Spees, K., Newell, S. A. and Pfeifenberger, J. P. (2013). Capacity Markets: Lessons Learned from the First Decade. Economics of Energy & Environmental Policy, 2(2), 1–26.Google Scholar

Steiner, F. (2001). Regulation, Industry Structure and Performance in the Electricity Supply Industry. OECD Economic Studies, No. 32, 2001/I.Google Scholar

Stoft, S. (2002). Power System Economics. New York: IEEE-Wiley.Google Scholar

Stanfield, B., Mansur, E. T. and Saravia, C. (2008). Vertical Arrangements, Market Structure, and Competition: An Analysis of Restructured US Electricity Markets. The American Economic Review, 98(1), 237–266.Google Scholar

Su, X. (2015). Have Customers Benefited from Electricity Retail Competition? Journal of Regulatory Economics, 47(2), 146–182.Google Scholar

Surendran, R. Hogan, W. W., Hui, H. and Yu, C. (2016). Scarcity Pricing in ERCOT, FERC Technical Conference, June 27–29, 2016. Available at: www.ferc.gov/CalendarFiles/20160629114652–3-FERC2016_Scarcity Pricing_ERCOT_Resmi Surendran.pdf.Google Scholar

Taylor, B. N. and Thompson, A. (2008). The International System of Units (SI), NIST Special Publication 330, Gaithersburg, MD: National Institute of Standards and Technology.Google Scholar

Tol, R. S. J. (2014). Climate Economics: Economic Analysis of Climate, Climate Change and Climate Policy. London: Edward Elgar Publishing.Google Scholar

Twomey, P., Green, R. J., Neuhoff, K. and Newbery, D. (2006). A Review of the Monitoring of Market Power: The Possible Roles of TSOs in Monitoring for Market Power Issues in Congested Transmission Systems. Journal of Energy Literature, 11(2), 2005.Google Scholar

Ueckerdt, F. Hirth, L., Luderer, G., and Edenhofer, O. (2013). System LCOE XE “Levelized Cost of Electricity”: What Are the Costs of Variable Renewables? Energy, 25, 178–190.Google Scholar

Varian, H. (2014). Intermediate Microeconomics: A Modern Approach (9th Edition). New York and London: W. Norton & Company.Google Scholar

Vàsquez, C., Batlle, C., Lumbreras, S. and Perez Arriaga, I. J. (2006). Electricity Retail Regulation in a Context of Vertical Integration: The Debate on Regulated Tariffs. IIT Working Paper, IIT-06-028A.Google Scholar

Ventosa, M., Baıllo, A., Ramos, A. and Rivier, M. (2005). Electricity Market Modeling Trends. Energy Policy, 33(7), 897–913.Google Scholar

Viscusi, W. K., Harrington, J. E., and Vernon, J. M. (2005). Economics of Regulation and Antitrust. Cambridge, MA: The MIT Press.Google Scholar

von der Fehr, N. H. M. and Hansen, P. V. (2010). Electricity Retailing in Norway. The Energy Journal, 31(1), 26–45.Google Scholar

von der Fehr, N. H. M., and Harbord, D. (1993). Spot Market Competition in the UK Electricity Industry. The Economic Journal, 103(418), 531–546.Google Scholar

von der Fehr, N. H. M. and Harbord, D. (1995). Capacity Investment and Long-Run Efficiency in Market-Based Electricity Industries. Competition in the Electricity Supply Industry: Experience from Europe and the United States. University of Oslo, Norway, Working Paper.Google Scholar

Weron, R. (2007). Modelling and Forecasting Electricity Loads and Prices: A Statistical Approach. Chichester: John Wiley & Sons.Google Scholar

Weyant, J. (1996). Integrated Assessment of Climate Change: An Overview and Comparison of Approaches and Results. In Climate Change 1995: Economic and Social Dimensions of Climate Change. Edited by Bruce, J., Yi, H., and Haites, E., 367–439. Cambridge: Cambridge University Press.Google Scholar

Willems, B., Rumiantseva, I. and Weigt, H. (2009). Cournot Versus Supply Functions: What Does the Data Tell Us? Energy Economics, 31(1), 38–47.Google Scholar

Wilson, C. and Waddams Price, C. (2010). Do Consumers Switch to the Best Supplier? Oxford Economic Papers, 62(4), 647–668.Google Scholar

Wolak, F. A., and Patrick, R. H. (1996). Industry Structure and Regulation in the England and Wales Electricity Market. In Pricing and Regulatory Innovations Under Increasing Competition, New York: Springer, pp. 65–90.Google Scholar

Woerdman, E., Couwenberg, O., and Nentjes., A. (2009). Energy Prices and Emissions Trading: Windfall Profits from Grandfathering? European Journal of Law and Economics, 28(2), 185–202.Google Scholar

Wolak, F. A. (2014). Regulating Competition in Wholesale Electricity Supply. In Economic Regulation and Its Reform: What Have We Learned? Chicago: University of Chicago Press, pp. 195–289.Google Scholar

Wolfram, C. D. (1997). Strategic Bidding in a Multi-Unit Auction: An Empirical Analysis of Bids to Supply Electricity. National Bureau of Economic Research Working Paper no. w6269.Google Scholar

Zhang, Y., Chen, W. and Gao, W. (2017). A Survey on the Development Status and Challenges of Smart Grids in Main Driver Countries. Renewable and Sustainable Energy Reviews, 79, 137–147.Google Scholar