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Hybrid Mean Variance Mapping Optimization Algorithm for Solving Stochastic Based Dynamic Economic Dispatch Incorporating Wind Power Uncertainty

Noha Shouman, Yasser G. Hegazy, Walid A. Omran

2021Electric Power Components and Systems11 citationsDOI

Abstract

This paper presents a model for studying the dynamic economic load dispatch problem in power system including conventional thermal generators and wind turbines. The problem is solved using the hybrid variant Mean Variance Mapping Optimization technique. Due to the stochastic nature of wind speed, the Weibull distribution parameters of wind speed are obtained for different time intervals (24 hours). Consequently, the probability density function for the output wind power is achieved for each hour separately. The constraints for the thermal generators are considered including generation limits, ramp rate limits, valve-point loading and spinning reserve. The optimization problem is solved for different scenarios and total operating cost obtained shows the effect of wind power penetration as well as the overestimate and underestimate power probabilities.

Topics & Concepts

Economic dispatchWeibull distributionWind powerWind speedMathematical optimizationProbability density functionControl theory (sociology)Electric power systemStochastic optimizationOptimization problemPower (physics)Computer scienceMathematicsEngineeringMeteorologyStatisticsControl (management)PhysicsQuantum mechanicsElectrical engineeringArtificial intelligenceElectric Power System OptimizationEnergy Load and Power ForecastingOptimal Power Flow Distribution