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AC Network-Constrained Unit Commitment via Relaxation and Decomposition

Gonzalo E. Constante‐Flores, Antonio J. Conejo, Feng Qiu

2021IEEE Transactions on Power Systems29 citationsDOI

Abstract

We propose an approach to solving the AC network-constrained unit commitment problem (AC-NCUC) of large-scale power systems. This approach relies on solving convex (continuous and mixed-integer) optimization problems. First, we formulate a second-order conic relaxation of the original optimization problem, which renders a mixed-integer second-order conic optimization problem. To solve this problem, we use Benders’ decomposition, which decomposes it into a master problem, which is mixed-integer linear, and a subproblem, which is continuous and second-order conic. To improve the convergence of the Benders’ algorithm, we add several linear feasibility constraints to the master problem. Since the second-order relaxation of the original problem cannot guarantee AC feasibility of the solution found, we ensure such feasibility by solving a sequence of continuous convex optimization problems. We numerically validate the proposed approach using a Texas 2000-bus system.

Topics & Concepts

Mathematical optimizationConic optimizationConic sectionPower system simulationRelaxation (psychology)Integer (computer science)Optimization problemConvergence (economics)Benders' decompositionConvex optimizationSequence (biology)Economic dispatchLagrangian relaxationMathematicsRegular polygonComputer scienceElectric power systemPower (physics)Convex combinationPhysicsEconomicsPsychologySocial psychologyQuantum mechanicsGeneticsProgramming languageBiologyEconomic growthGeometryElectric Power System OptimizationOptimal Power Flow DistributionSmart Grid Energy Management
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