A Game theoretic model for generation capacity adequacy: Comparison between investment incentive mechanisms in electricity markets

Haikel Khalfallah

Article dans une revue Energy Journal Année : 2011

A Game theoretic model for generation capacity adequacy: Comparison between investment incentive mechanisms in electricity markets

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Haikel Khalfallah

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European University Institute

Résumé

n this paper we study the problem of long-term capacity adequacy in electricity markets. We implement a dynamic model in which firms compete for investment and electricity production under imperfect Cournot competition. The main aim of this work is to compare three investment incentive mechanisms: reliability options, forward capacity market and capacity payments. Apart from the oligopoly case, we also analyze collusion and monopoly cases. Dynamic programming is used to deal with the stochastic environment of the market and mixed complementarity problem and variational inequality formulations are employed to find a solution to the game. The main finding of this study is that market-based mechanisms would be the most cost-efficient mechanism for assuring long-term system capacity adequacy. Moreover, generators would exert market power when introducing capacity payments. Finally, compared with a Cournot oligopoly, collusion and monopolistic situations lead to more installed capacities with marketbased mechanisms and increase consumers' payments.

Mots clés

electricity market adequacy dynamic programming complementarity problems game theory

C6 C7 D5 D8 L1 Q4.

Domaines

Economies et finances

Liste complète des métadonnées

Format du dépôt	Fichier
Type de dépôt	Article dans une revue
Titre	en A Game theoretic model for generation capacity adequacy: Comparison between investment incentive mechanisms in electricity markets
Résumé	en n this paper we study the problem of long-term capacity adequacy in electricity markets. We implement a dynamic model in which firms compete for investment and electricity production under imperfect Cournot competition. The main aim of this work is to compare three investment incentive mechanisms: reliability options, forward capacity market and capacity payments. Apart from the oligopoly case, we also analyze collusion and monopoly cases. Dynamic programming is used to deal with the stochastic environment of the market and mixed complementarity problem and variational inequality formulations are employed to find a solution to the game. The main finding of this study is that market-based mechanisms would be the most cost-efficient mechanism for assuring long-term system capacity adequacy. Moreover, generators would exert market power when introducing capacity payments. Finally, compared with a Cournot oligopoly, collusion and monopolistic situations lead to more installed capacities with marketbased mechanisms and increase consumers' payments.
Auteur(s)	Haikel Khalfallah ¹ 1 EUI - European University Institute ( 169834 ) - Villa San Paolo, Via della Piazzuola 43, 50133 Florence - Italie
Langue du document	Anglais
Nom de la revue	Energy Journal (ISSN : 0195-6574) International Association for Energy Economics Publié par International Association for Energy Economics http://www.iaee.org
Vulgarisation	Non
Comité de lecture	Oui
Audience	Internationale
Date de publication	2011
Volume	32
Numéro	4
Page/Identifiant	117-157
Domaine(s)	Sciences de l'Homme et Société/Economies et finances
Mots-clés (JEL)	C - Mathematical and Quantitative Methods/C.C6 - Mathematical Methods • Programming Models • Mathematical and Simulation Modeling C - Mathematical and Quantitative Methods/C.C7 - Game Theory and Bargaining Theory D - Microeconomics/D.D5 - General Equilibrium and Disequilibrium D - Microeconomics/D.D8 - Information, Knowledge, and Uncertainty L - Industrial Organization/L.L1 - Market Structure, Firm Strategy, and Market Performance Q - Agricultural and Natural Resource Economics • Environmental and Ecological Economics/Q.Q4 - Energy
Mots-clés	en electricity market, adequacy, dynamic programming, complementarity problems, game theory fr C6, C7, D5, D8, L1, Q4.

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Haikel Khalfallah. A Game theoretic model for generation capacity adequacy: Comparison between investment incentive mechanisms in electricity markets. Energy Journal, 2011, 32 (4), pp.117-157. ⟨halshs-00743195⟩

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A Game theoretic model for generation capacity adequacy: Comparison between investment incentive mechanisms in electricity markets

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