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    First cycle simulations of the Honigmann process with LiBr/H2O and NaOH/H2O as working fluid pairs as a thermochemical energy storage

    New search for: Jahnke, Anna
    New search for: Strenge, Lia
    New search for: Fleßner, Christian
    New search for: Wolf, Niklas
    New search for: Jungnickel, Tim
    New search for: Ziegler, Felix

    A thermochemical energy storage invented in the 19th century, the so-called ‘Honigmann process’, is reconsidered for the storage of renewable energies or waste heat. In this work, one basic process option of charging with the input of low-grade heat and discharging with the release of mechanical work is studied. A fundamental model based on transient energy and mass balances was implemented with the help of the modelling language Modelica. First simulation results indicate a relatively constant power output in spite of the non-steady-state nature of the process.

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    First cycle simulations of the Honigmann process with LiBr/H2O and NaOH/H2O as working fluid pairs as a thermochemical energy storage

    New search for: Jahnke, Anna
    New search for: Strenge, Lia
    New search for: Fleßner, Christian
    New search for: Wolf, Niklas
    New search for: Jungnickel, Tim
    New search for: Ziegler, Felix

    A thermochemical energy storage invented in the 19th century, the so-called ‘Honigmann process’, is reconsidered for the storage of renewable energies or waste heat. In this work, one basic process option of charging with the input of low-grade heat and discharging with the release of mechanical work is studied. A fundamental model based on transient energy and mass balances was implemented with the help of the modelling language Modelica. First simulation results indicate a relatively constant power output in spite of the non-steady-state nature of the process.

    Access

    Download

    First cycle simulations of the Honigmann process with LiBr/H2O and NaOH/H2O as working fluid pairs as a thermochemical energy storage

    New search for: Jahnke, Anna
    New search for: Strenge, Lia
    New search for: Fleßner, Christian
    New search for: Wolf, Niklas
    New search for: Jungnickel, Tim
    New search for: Ziegler, Felix

    A thermochemical energy storage invented in the 19th century, the so-called ‘Honigmann process’, is reconsidered for the storage of renewable energies or waste heat. In this work, one basic process option of charging with the input of low-grade heat and discharging with the release of mechanical work is studied. A fundamental model based on transient energy and mass balances was implemented with the help of the modelling language Modelica. First simulation results indicate a relatively constant power output in spite of the non-steady-state nature of the process.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    First cycle simulations of the Honigmann process with LiBr/H2O and NaOH/H2O as working fluid pairs as a thermochemical energy storage

    Contributors:

    Jahnke, Anna (author) / Strenge, Lia (author) / Fleßner, Christian (author) / Wolf, Niklas (author) / Jungnickel, Tim (author) / Ziegler, Felix (author)

    Published in:

    International journal of low-carbon technologies ; 8 ; i55-

    Publication date:

    2013-07-01

    ISSN:

    1748-1317 , 1748-1325

    DOI:

    https://doi.org/10.1093/ijlct/ctt022

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

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