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    Day-ahead optimal scheduling method for grid-connected microgrid based on energy storage control strategy

    New search for: Xiangyu Kong
    New search for: Linquan Bai
    New search for: Qinran Hu
    New search for: Fangxing Li
    New search for: Chengshan Wang

    A day-ahead optimal scheduling method for a grid-connected microgrid based on energy storage (ES) control strategy is proposed in this paper. The proposed method optimally schedules ES devices to minimize the total operating costs while satisfying the load requirements of cold, heat, and electricity in microgrids. By modeling the operating cost function of each stage, the proposed method is able to adapt to different types of electricity markets and pricing mechanisms. The technical characteristics of ES, such as self-discharge and round-trip efficiency, are considered in the control strategy with a multistage process model. An improved dynamic programing method is used to solve the optimization model. Finally, case studies are provided to illustrate the application process and verify the proposed method.

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    Day-ahead optimal scheduling method for grid-connected microgrid based on energy storage control strategy

    New search for: Xiangyu Kong
    New search for: Linquan Bai
    New search for: Qinran Hu
    New search for: Fangxing Li
    New search for: Chengshan Wang

    A day-ahead optimal scheduling method for a grid-connected microgrid based on energy storage (ES) control strategy is proposed in this paper. The proposed method optimally schedules ES devices to minimize the total operating costs while satisfying the load requirements of cold, heat, and electricity in microgrids. By modeling the operating cost function of each stage, the proposed method is able to adapt to different types of electricity markets and pricing mechanisms. The technical characteristics of ES, such as self-discharge and round-trip efficiency, are considered in the control strategy with a multistage process model. An improved dynamic programing method is used to solve the optimization model. Finally, case studies are provided to illustrate the application process and verify the proposed method.

    Access

    Download

    Day-ahead optimal scheduling method for grid-connected microgrid based on energy storage control strategy

    New search for: Xiangyu Kong
    New search for: Linquan Bai
    New search for: Qinran Hu
    New search for: Fangxing Li
    New search for: Chengshan Wang

    A day-ahead optimal scheduling method for a grid-connected microgrid based on energy storage (ES) control strategy is proposed in this paper. The proposed method optimally schedules ES devices to minimize the total operating costs while satisfying the load requirements of cold, heat, and electricity in microgrids. By modeling the operating cost function of each stage, the proposed method is able to adapt to different types of electricity markets and pricing mechanisms. The technical characteristics of ES, such as self-discharge and round-trip efficiency, are considered in the control strategy with a multistage process model. An improved dynamic programing method is used to solve the optimization model. Finally, case studies are provided to illustrate the application process and verify the proposed method.

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    Download

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    Title:

    Day-ahead optimal scheduling method for grid-connected microgrid based on energy storage control strategy

    Contributors:

    Xiangyu Kong (author) / Linquan Bai (author) / Qinran Hu (author) / Fangxing Li (author) / Chengshan Wang (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 4, Iss 4, Pp 648-658 (2016)

    Publication date:

    2016

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.1007/s40565-016-0245-0

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Energy storage , Microgrid , Optimal scheduling , Market structure , Price mechanism , Production of electric energy or power. Powerplants. Central stations , TK1001-1841 , Renewable energy sources , TJ807-830

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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