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Convex Relaxation of Grid-Connected Energy Storage System Models With Complementarity Constraints in DC OPF

Kaitlyn Garifi, Kyri Baker, Dane Christensen, Behrouz Touri

2020IEEE Transactions on Smart Grid50 citationsDOIOpen Access PDF

Abstract

Including complementarity constraints in energy storage system (ESS) models in optimization problems ensure an optimal solution will not produce a physically unrealizable control strategy where there is simultaneous charging and discharging. However, the current approaches to impose complementarity constraints require the use of non-convex optimization methods. In this paper, we propose a convex relaxation for a common ESS model that has terms for both charging and discharging based on a penalty reformulation for use in a model predictive control (MPC) based optimal power flow (DC OPF) problem. In this approach, the complementarity constraints are omitted and a penalty term is added to the optimization objective function. For the DC OPF problem, we provide analysis for the conditions under which the convex relaxation of the complementarity constraint ensures that a solution with simultaneous ESS charging and discharging operation is suboptimal. Simulation results demonstrating ESS behavior with and without the penalty reformulation are provided for an MPC-based DC OPF problem on multiple IEEE test systems.

Topics & Concepts

Mathematical optimizationPenalty methodComplementarity (molecular biology)Mixed complementarity problemGridEnergy storageRegular polygonOptimization problemComplementarity theoryConvex optimizationComputer scienceElectric power systemPower flowConvex functionRelaxation (psychology)MathematicsPower (physics)GeometryPhysicsBiologySocial psychologyNonlinear systemGeneticsPsychologyQuantum mechanicsMicrogrid Control and OptimizationAdvanced Battery Technologies ResearchElectric Vehicles and Infrastructure