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Distributionally Robust Unit Commitment With Flexible Generation Resources Considering Renewable Energy Uncertainty

Siyuan Wang, Chaoyue Zhao, Lei Fan, Rui Bo

2022IEEE Transactions on Power Systems73 citationsDOI

Abstract

As the penetration of intermittent renewable energy increases in bulk power systems, flexible generation resources, such as quick-start gas units, become important tools for system operators to address the power imbalance problem. To better capture their flexibility, we proposed a two-stage distributionally robust unit commitment framework with both regular and flexible generation resources, in which the unit commitment decisions for flexible generation resources can be adjusted in the second stage to accommodate the renewable energy intermittency. In order to tackle this challenging two-stage distributionally robust mixed-binary model, to which traditional separation algorithms won’t apply, we designed a revised integer L-shaped algorithm with lift-and-project cutting plane techniques. In comparison to the traditional distributionally robust unit commitment, the proposed approach can reduce the system cost through an improved flexible resource quantification in the modeling.

Topics & Concepts

Power system simulationRenewable energyUnit (ring theory)Electricity generationComputer scienceElectric power systemWind powerMathematical optimizationRobustness (evolution)Reliability engineeringEngineeringOperations researchControl engineeringEnvironmental economicsPower (physics)EconomicsElectrical engineeringMathematicsPhysicsMathematics educationGeneChemistryBiochemistryQuantum mechanicsElectric Power System OptimizationSmart Grid Energy ManagementOptimal Power Flow Distribution
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