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    Energetic macroscopic representation control method for a hybrid-source energy system including wind, hydrogen, and fuel cell

    New search for: Yuan, Tiejiang
    New search for: Dong, Xiaoshun
    New search for: Chen, Xiangping
    New search for: Cao, Wenping
    New search for: Hu, Juan
    New search for: Liu, Chuang

    This paper proposes a new control method for a hybrid energy system. A wind turbine, a hydrogen energy storage system, and a proton exchange membrane fuel cell are utilized in the system to balance the load and supply. The system is modeled in MATLAB/Simulink and is controlled by an improved energetic macroscopic representation (EMR) method in order to match the load profile with wind power. The simulation and test results have proved that (1) the proposed system is effective to meet the varying load demand with fluctuating wind power inputs, (2) the hybrid energy storage system can improve the stability and fault-ride-through performance of the system, and (3) the dynamic response of the proposed system is satisfactory to operate with wind turbines, energy storage, and fuel cells under EMR control.

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    Energetic macroscopic representation control method for a hybrid-source energy system including wind, hydrogen, and fuel cell

    New search for: Yuan, Tiejiang
    New search for: Dong, Xiaoshun
    New search for: Chen, Xiangping
    New search for: Cao, Wenping
    New search for: Hu, Juan
    New search for: Liu, Chuang

    This paper proposes a new control method for a hybrid energy system. A wind turbine, a hydrogen energy storage system, and a proton exchange membrane fuel cell are utilized in the system to balance the load and supply. The system is modeled in MATLAB/Simulink and is controlled by an improved energetic macroscopic representation (EMR) method in order to match the load profile with wind power. The simulation and test results have proved that (1) the proposed system is effective to meet the varying load demand with fluctuating wind power inputs, (2) the hybrid energy storage system can improve the stability and fault-ride-through performance of the system, and (3) the dynamic response of the proposed system is satisfactory to operate with wind turbines, energy storage, and fuel cells under EMR control.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Energetic macroscopic representation control method for a hybrid-source energy system including wind, hydrogen, and fuel cell

    New search for: Yuan, Tiejiang
    New search for: Dong, Xiaoshun
    New search for: Chen, Xiangping
    New search for: Cao, Wenping
    New search for: Hu, Juan
    New search for: Liu, Chuang

    This paper proposes a new control method for a hybrid energy system. A wind turbine, a hydrogen energy storage system, and a proton exchange membrane fuel cell are utilized in the system to balance the load and supply. The system is modeled in MATLAB/Simulink and is controlled by an improved energetic macroscopic representation (EMR) method in order to match the load profile with wind power. The simulation and test results have proved that (1) the proposed system is effective to meet the varying load demand with fluctuating wind power inputs, (2) the hybrid energy storage system can improve the stability and fault-ride-through performance of the system, and (3) the dynamic response of the proposed system is satisfactory to operate with wind turbines, energy storage, and fuel cells under EMR control.

    Access

    Check access
    Check availability in my library
    Order at Subito €

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    Title:

    Energetic macroscopic representation control method for a hybrid-source energy system including wind, hydrogen, and fuel cell

    Contributors:

    Yuan, Tiejiang (author) / Dong, Xiaoshun (author) / Chen, Xiangping (author) / Cao, Wenping (author) / Hu, Juan (author) / Liu, Chuang (author)

    Published in:

    Journal of Renewable and Sustainable Energy ; 10 ; 17

    Publication date:

    2018-07-01

    Size:

    17 pages

    ISSN:

    1941-7012

    DOI:

    https://doi.org/10.1063/1.5038091

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    ARTICLES , Wind Energy

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