Non-dominated sorting culture differential evolution algorithm for multi-objective optimal operation of Wind-Solar-Hydro complementary power generation system 被引量：3

Non-dominated sorting culture differential evolution algorithm for multi-objective optimal operation of Wind-Solar-Hydro complementary power generation system

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摘要 Due to the intermittency and instability of Wind-Solar energy and easy compensation of hydropower, this study proposes a Wind-Solar-Hydro power optimal scheduling model. This model is aimed at maximizing the total system power generation and the minimum ten-day joint output. To effectively optimize the multi-objective model, a new algorithm named non-dominated sorting culture differential evolution algorithm(NSCDE) is proposed. The feasibility of NSCDE was verified through several well-known benchmark problems. It was then applied to the Jinping Wind-Solar-Hydro complementary power generation system. The results demonstrate that NSCDE can provide decision makers a series of optimized scheduling schemes. Due to the intermittency and instability of Wind-Solar energy and easy compensation of hydropower, this study proposes a Wind-Solar-Hydro power optimal scheduling model. This model is aimed at maximizing the total system power generation and the minimum ten-day joint output. To effectively optimize the multi-objective model, a new algorithm named non-dominated sorting culture differential evolution algorithm(NSCDE) is proposed. The feasibility of NSCDE was verified through several well-known benchmark problems. It was then applied to the Jinping Wind-Solar-Hydro complementary power generation system. The results demonstrate that NSCDE can provide decision makers a series of optimized scheduling schemes.

作者 Guanjun Liu Hui Qin Rui Tian Lingyun Tang Jie Li

机构地区 School of Hydropower and Information Engineering

出处《Global Energy Interconnection》 2019年第4期368-374,共7页 全球能源互联网（英文版）

基金 supported by the National Key R&D Program of China (2016YFC0402209) the Major Research Plan of the National Natural Science Foundation of China (No. 91647114)

关键词 Wind-Solar-Hydro COMPLEMENTARY power generation system Scheduling strategy MULTI-OBJECTIVE optimization CULTURE algorithm Wind-Solar-Hydro complementary power generation system Scheduling strategy Multi-objective optimization Culture algorithm

分类号 TM61 [电气工程—电力系统及自动化]

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