首页|A Modified Genetic Algorithm for Combined Heat and Power Economic Dispatch
A Modified Genetic Algorithm for Combined Heat and Power Economic Dispatch
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Combined Heat and Power Economic Dispatch(CHPED)is an important problem in the energy field,and it is beneficial for improving the utilization efficiency of power and heat energies.This paper proposes a Modified Genetic Algorithm(MGA)to determine the power and heat outputs of three kinds of units for CHPED.First,MGA replaces the simulated binary crossover by a new one based on the uniform and guassian distributions,and its convergence can be enhanced.Second,MGA modi-fies the mutation operator by introducing a disturbance coefficient based on guassian distribution,which can decrease the risk of being trapped into local optima.Eight instances with or without prohibited operating zones are used to investigate the efficiencies of MGA and other four genetic algorithms for CHPED.In comparison with the other algorithms,MGA has reduced generation costs by at least 562.73$,1068.7$,522.68$ and 1016.24$,respectively,for instances 3,4,7 and 8,and it has reduced generation costs by at most 848.22$,3642.85$,897.63$ and 3812.65$,respectively,for instances 3,4,7 and 8.Therefore,MGA has desirable convergence and stability for CHPED in comparison with the other four genetic algorithms.
Modified genetic algorithmCombined heat and power economic dispatchUniform distributionGuassian distributionDisturbance coefficientProhibited operating zone
Deliang Li、Chunyu Yang
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School of Information and Control Engineering,China University of Mining and Technology,Xuzhou 221116,China
School of Mechatronic Engineering,Xuzhou College of Industrial Technology,Xuzhou 221140,China
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