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    Multi-stage sizing approach for development of utility-scale BESS considering dynamic growth of distributed photovoltaic connection

    New search for: Zao Tang
    New search for: Youbo Liu
    New search for: Junyong Liu
    New search for: Ran Li
    New search for: Lili Wen
    New search for: Guofang Zhang

    The battery energy storage system (BESS) is regarded as one of the most promising address operational challenges caused by distributed generations. This paper proposes a novel multi-stage sizing model for utility-scale BESS, to optimize the BESS development strategies for distribution networks with increasing penetration levels and growth patterns of dispersed photovoltaic (PV) panels. Particularly, an integrated model is established in order to accommodate dispersed PVs in short-term operation scale while facilitating appropriate profits in long-term planning scale. Clusterwise reduction is adopted to extract the most representative operating scenarios with PVs and BESS integration, which is able to decrease the computing complexity caused by scenario redundancy. The numerical studies on IEEE 69-bus distribution system verify the feasibility of the proposed multi-stage sizing approach for the utility-scale BESS.

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    Multi-stage sizing approach for development of utility-scale BESS considering dynamic growth of distributed photovoltaic connection

    New search for: Zao Tang
    New search for: Youbo Liu
    New search for: Junyong Liu
    New search for: Ran Li
    New search for: Lili Wen
    New search for: Guofang Zhang

    The battery energy storage system (BESS) is regarded as one of the most promising address operational challenges caused by distributed generations. This paper proposes a novel multi-stage sizing model for utility-scale BESS, to optimize the BESS development strategies for distribution networks with increasing penetration levels and growth patterns of dispersed photovoltaic (PV) panels. Particularly, an integrated model is established in order to accommodate dispersed PVs in short-term operation scale while facilitating appropriate profits in long-term planning scale. Clusterwise reduction is adopted to extract the most representative operating scenarios with PVs and BESS integration, which is able to decrease the computing complexity caused by scenario redundancy. The numerical studies on IEEE 69-bus distribution system verify the feasibility of the proposed multi-stage sizing approach for the utility-scale BESS.

    Access

    Download

    Multi-stage sizing approach for development of utility-scale BESS considering dynamic growth of distributed photovoltaic connection

    New search for: Zao Tang
    New search for: Youbo Liu
    New search for: Junyong Liu
    New search for: Ran Li
    New search for: Lili Wen
    New search for: Guofang Zhang

    The battery energy storage system (BESS) is regarded as one of the most promising address operational challenges caused by distributed generations. This paper proposes a novel multi-stage sizing model for utility-scale BESS, to optimize the BESS development strategies for distribution networks with increasing penetration levels and growth patterns of dispersed photovoltaic (PV) panels. Particularly, an integrated model is established in order to accommodate dispersed PVs in short-term operation scale while facilitating appropriate profits in long-term planning scale. Clusterwise reduction is adopted to extract the most representative operating scenarios with PVs and BESS integration, which is able to decrease the computing complexity caused by scenario redundancy. The numerical studies on IEEE 69-bus distribution system verify the feasibility of the proposed multi-stage sizing approach for the utility-scale BESS.

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    Download

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    Document information
    Title:

    Multi-stage sizing approach for development of utility-scale BESS considering dynamic growth of distributed photovoltaic connection

    Contributors:

    Zao Tang (author) / Youbo Liu (author) / Junyong Liu (author) / Ran Li (author) / Lili Wen (author) / Guofang Zhang (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 4, Iss 4, Pp 554-565 (2016)

    Publication date:

    2016

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.1007/s40565-016-0242-3

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Multi-stage sizing , BESS , Growth pattern , Long-time planning , Short-term scheduling , 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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