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    A new equivalent circuit model parametrization methodology based on current pulse tests for different battery technologies

    New search for: Arregi, Oier
    New search for: Agirrezabala, Eneko
    New search for: IRAOLA, UNAI
    New search for: Milo Urkiola, Aitor
    New search for: Yeregui, Josu
    New search for: Gil, Iñigo

    With growing global commitment to renewable energy generation, the role of energy storage systems has become a central issue in traction power applications, such as electric vehicles, trains, and elevators. To achieve the optimal integration of batteries in such applications, without unnecessary oversizing, improvements in the process of battery selection are needed. Specifically, it is necessary to develop models able to predict battery performance for each particular application. In this paper, a methodology for the parametrization of a battery equivalent circuit model (ECM) based on capacity and pulse tests is presented. The model can be extrapolated to different battery technologies, and was validated by comparing simulations and experimental tests with lead-acid and lithium-ion batteries.

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    A new equivalent circuit model parametrization methodology based on current pulse tests for different battery technologies

    New search for: Arregi, Oier
    New search for: Agirrezabala, Eneko
    New search for: IRAOLA, UNAI
    New search for: Milo Urkiola, Aitor
    New search for: Yeregui, Josu
    New search for: Gil, Iñigo

    With growing global commitment to renewable energy generation, the role of energy storage systems has become a central issue in traction power applications, such as electric vehicles, trains, and elevators. To achieve the optimal integration of batteries in such applications, without unnecessary oversizing, improvements in the process of battery selection are needed. Specifically, it is necessary to develop models able to predict battery performance for each particular application. In this paper, a methodology for the parametrization of a battery equivalent circuit model (ECM) based on capacity and pulse tests is presented. The model can be extrapolated to different battery technologies, and was validated by comparing simulations and experimental tests with lead-acid and lithium-ion batteries.

    Access

    Download

    A new equivalent circuit model parametrization methodology based on current pulse tests for different battery technologies

    New search for: Arregi, Oier
    New search for: Agirrezabala, Eneko
    New search for: IRAOLA, UNAI
    New search for: Milo Urkiola, Aitor
    New search for: Yeregui, Josu
    New search for: Gil, Iñigo

    With growing global commitment to renewable energy generation, the role of energy storage systems has become a central issue in traction power applications, such as electric vehicles, trains, and elevators. To achieve the optimal integration of batteries in such applications, without unnecessary oversizing, improvements in the process of battery selection are needed. Specifically, it is necessary to develop models able to predict battery performance for each particular application. In this paper, a methodology for the parametrization of a battery equivalent circuit model (ECM) based on capacity and pulse tests is presented. The model can be extrapolated to different battery technologies, and was validated by comparing simulations and experimental tests with lead-acid and lithium-ion batteries.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

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    Title:

    A new equivalent circuit model parametrization methodology based on current pulse tests for different battery technologies

    Contributors:

    Arregi, Oier (author) / Agirrezabala, Eneko (author) / IRAOLA, UNAI (author) / Milo Urkiola, Aitor / Yeregui, Josu / Nogueras Ferreiro, Unai / Gil, Iñigo

    Publication date:

    2021-01-01

    Remarks:

    Energies Vol. 14. N. 21. N. artículo 7255, 2021

    DOI:

    https://doi.org/10.3390/en14217255

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    lead-acid battery , equivalent circuit model (ECM) , Parameter identification , lithium-ion batteries

    Classification:

    DDC:  690

    Licence:

    http://creativecommons.org/licenses/by/4.0/

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