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    INTEGRATING GASIFICATION AND DEVELOPING AN INTEGRATED “WASTE TO ENERGY” POWER PLANT

    Neue Suche nach: Novotny, Vladimir

    This chapter presents the fundamental reactions and parameters of incineration, pyrolysis, and gasification by which the organic feed compounds are converted to energy. Before introducing pyrolysis and gasification it is necessary to discuss incineration, which has been used for burning municipal solid waste (MSW) since nineteenth century. Pyrolysis and gasification processes are different from incineration. In this technology, organic carbon in MSW and other solid fuels (wood chips, coal, vegetation residues, nonrecycled plastics, tires) are thermally converted to biogas (syngas) and biofuel with limited oxygen (direct gasification) or without oxygen (indirect gasification with added hot steam). The chapter also presents the molten carbonate fuel cell combined with steam methane reforming that converts methane from the AnFBM and/or UASB reactors and a digester, if it is a part of the Integrated Resource Recovery Facility, to hydrogen‐enriched syngas.

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    INTEGRATING GASIFICATION AND DEVELOPING AN INTEGRATED “WASTE TO ENERGY” POWER PLANT

    Neue Suche nach: Novotny, Vladimir

    This chapter presents the fundamental reactions and parameters of incineration, pyrolysis, and gasification by which the organic feed compounds are converted to energy. Before introducing pyrolysis and gasification it is necessary to discuss incineration, which has been used for burning municipal solid waste (MSW) since nineteenth century. Pyrolysis and gasification processes are different from incineration. In this technology, organic carbon in MSW and other solid fuels (wood chips, coal, vegetation residues, nonrecycled plastics, tires) are thermally converted to biogas (syngas) and biofuel with limited oxygen (direct gasification) or without oxygen (indirect gasification with added hot steam). The chapter also presents the molten carbonate fuel cell combined with steam methane reforming that converts methane from the AnFBM and/or UASB reactors and a digester, if it is a part of the Integrated Resource Recovery Facility, to hydrogen‐enriched syngas.

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    INTEGRATING GASIFICATION AND DEVELOPING AN INTEGRATED “WASTE TO ENERGY” POWER PLANT

    Neue Suche nach: Novotny, Vladimir

    This chapter presents the fundamental reactions and parameters of incineration, pyrolysis, and gasification by which the organic feed compounds are converted to energy. Before introducing pyrolysis and gasification it is necessary to discuss incineration, which has been used for burning municipal solid waste (MSW) since nineteenth century. Pyrolysis and gasification processes are different from incineration. In this technology, organic carbon in MSW and other solid fuels (wood chips, coal, vegetation residues, nonrecycled plastics, tires) are thermally converted to biogas (syngas) and biofuel with limited oxygen (direct gasification) or without oxygen (indirect gasification with added hot steam). The chapter also presents the molten carbonate fuel cell combined with steam methane reforming that converts methane from the AnFBM and/or UASB reactors and a digester, if it is a part of the Integrated Resource Recovery Facility, to hydrogen‐enriched syngas.

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    Titel:

    INTEGRATING GASIFICATION AND DEVELOPING AN INTEGRATED “WASTE TO ENERGY” POWER PLANT

    Beteiligte:

    Novotny, Vladimir (Autor:in)

    Erschienen in:

    Integrated Sustainable Urban Water, Energy, and Solids Management ; 211-264

    Erscheinungsdatum:

    11.02.2020

    Format / Umfang:

    54 pages

    ISBN:

    9781119593652 , 9781119593683

    DOI:

    https://doi.org/10.1002/9781119593683.ch8

    Medientyp:

    Aufsatz/Kapitel (Buch)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    incineration , gasification , pyrolysis , hydrogen yield potential , microbial fuel cell , microbial electrolysis cell , hydrogen fuel cell

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