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Operationally-Safe Peer-to-Peer Energy Trading in Distribution Grids: A Game-Theoretic Market-Clearing Mechanism

Giuseppe Belgioioso, Wicak Ananduta, Sergio Grammatico, Carlos Ocampo‐Martínez

2022IEEE Transactions on Smart Grid80 citationsDOIOpen Access PDF

Abstract

In future distribution grids, prosumers (i.e., energy consumers with storage and/or production capabilities) will trade energy with each other and with the main grid. To ensure an efficient and safe operation of energy trading, in this paper, we formulate a peer-to-peer energy market of prosumers as a generalized aggregative game, in which a network operator is responsible to enforce the operational constraints of the system. We design a distributed market-clearing mechanism with convergence guarantee to an economically-efficient, strategically-stable, and operationally-safe configuration (i.e., a variational generalized Nash equilibrium). Numerical studies on the IEEE 37-bus testcase show the scalability of the proposed approach and suggest that active participation in the market is beneficial for both prosumers and the network operator.

Topics & Concepts

Market clearingScalabilityClearingNash equilibriumComputer scienceConvergence (economics)Energy marketPeer-to-peerMathematical optimizationGame theoryGridDistributed generationOperator (biology)Distributed computingMarket mechanismSmart gridRenewable energyMicroeconomicsEngineeringEconomicsMathematicsElectrical engineeringDatabaseRepressorFinanceGeometryBiochemistryEconomic growthGeneTranscription factorChemistryMacroeconomicsSmart Grid Energy ManagementOptimal Power Flow DistributionMicrogrid Control and Optimization
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