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    Electrochemical Ceramic Membrane Reactors in Future Energy and Chemical Process Engineering

    New search for: Heddrich, Marc P.
    New search for: Gupta, Sanchit
    New search for: Santhanam, Srikanth

    Electrochemical ceramic membrane reactors (ECMRs) with their unique ability to efficiently couple electrical, chemical, and thermal energy sectors can be a large part of the transition toward renewable energies and defossilized economies. ECMRs utilize ceramic conductors to extract or distribute oxide ions or protons – directly controlled by an external electric current. This article gives an overview of ECMR properties along with the functionalities and advantages. For many reactions, e.g., the direct synthesis of ammonia, ECMRs are not available at the preferred temperature range of 300 – 550 °C. To evidence the possibility of such reactors, functional materials are reviewed. A simple thermodynamic methodology is proposed to determine the suitability of reactions for particular combinations of coupled energy sectors.

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    Electrochemical Ceramic Membrane Reactors in Future Energy and Chemical Process Engineering

    New search for: Heddrich, Marc P.
    New search for: Gupta, Sanchit
    New search for: Santhanam, Srikanth

    Electrochemical ceramic membrane reactors (ECMRs) with their unique ability to efficiently couple electrical, chemical, and thermal energy sectors can be a large part of the transition toward renewable energies and defossilized economies. ECMRs utilize ceramic conductors to extract or distribute oxide ions or protons – directly controlled by an external electric current. This article gives an overview of ECMR properties along with the functionalities and advantages. For many reactions, e.g., the direct synthesis of ammonia, ECMRs are not available at the preferred temperature range of 300 – 550 °C. To evidence the possibility of such reactors, functional materials are reviewed. A simple thermodynamic methodology is proposed to determine the suitability of reactions for particular combinations of coupled energy sectors.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Electrochemical Ceramic Membrane Reactors in Future Energy and Chemical Process Engineering

    New search for: Heddrich, Marc P.
    New search for: Gupta, Sanchit
    New search for: Santhanam, Srikanth

    Electrochemical ceramic membrane reactors (ECMRs) with their unique ability to efficiently couple electrical, chemical, and thermal energy sectors can be a large part of the transition toward renewable energies and defossilized economies. ECMRs utilize ceramic conductors to extract or distribute oxide ions or protons – directly controlled by an external electric current. This article gives an overview of ECMR properties along with the functionalities and advantages. For many reactions, e.g., the direct synthesis of ammonia, ECMRs are not available at the preferred temperature range of 300 – 550 °C. To evidence the possibility of such reactors, functional materials are reviewed. A simple thermodynamic methodology is proposed to determine the suitability of reactions for particular combinations of coupled energy sectors.

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    Title:

    Electrochemical Ceramic Membrane Reactors in Future Energy and Chemical Process Engineering

    Contributors:

    Heddrich, Marc P. (author) / Gupta, Sanchit (author) / Santhanam, Srikanth (author)

    Published in:

    Chemie Ingenieur Technik ; 91 ; 809-820

    Publication date:

    2019-06-01

    Size:

    12 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.201800168

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Proton‐conducting ceramic membrane reactors , Sector coupling , Oxide ion conducting ceramic membrane reactors , Electrification of chemistry , Electrochemical ceramic membrane reactors

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