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Robustly Coordinated Generation Dispatch and Load Shedding for Power Systems Against Transient Instability Under Uncertain Wind Power

Heling Yuan, Yan Xu, Cuo Zhang

2021IEEE Transactions on Power Systems35 citationsDOI

Abstract

Transient stability of a power system can be significantly affected by wind power generators due to their stochastic power output and complex dynamic characteristics. This paper proposes a robust optimization approach for coordinating generation dispatch and emergency load shedding against transient instability under uncertain wind power output. The problem is modelled as a two-stage robust optimization (TSRO) model considering transient stability constraints, where the first-stage is to optimize the generation dispatch (preventive control) before a contingency and the second-stage decision is the emergency load shedding (emergency control) after the contingency occurrence under the worst case of wind power variation. To solve this TSRO problem, this paper also proposes a solution algorithm which integrates transient stability assessment and transient stability constraint construction in a column and constraint generation framework. The proposed method is validated on the New-England 39-bus system and the Nordic32 system, which shows high computational efficiency and stability robustness against uncertain wind power.

Topics & Concepts

Electric power systemControl theory (sociology)Transient (computer programming)Wind powerRobustness (evolution)EngineeringLoad SheddingMathematical optimizationComputer scienceControl engineeringPower (physics)MathematicsControl (management)BiochemistryQuantum mechanicsGeneArtificial intelligenceChemistryPhysicsOperating systemElectrical engineeringPower System Optimization and StabilityElectric Power System OptimizationOptimal Power Flow Distribution