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    Oxygen‐transfer efficiency of fine‐pore diffused aeration systems: energy intensity as a unifying evaluation parameter

    Neue Suche nach: Newbry, Brooks W.

    Assessing the clean‐water oxygen‐transfer characteristics of aeration devices is a critical step in the design and operation of aeration systems for activated‐sludge processes. A fundamental model has been developed for assessing the clean‐water oxygen‐transfer characteristics of fine‐bubble (fine‐pore) aeration devices. This model is based on a proposed fundamental parameter, energy intensity (EI; kW/m3), which is the energy required to deliver air to the aerated volume per unit of aerated volume. The standard oxygen transfer rate (SOTR, g/m3 · s) is shown to be related to EI through a second‐degree equation: SOTR = −11.5 EI2 + 2.27 EI (r2 = 0.951). The model applies over a wide range of diffuser types, diffuser densities, tank dimensions, and specific air flows. The results suggest that opportunities for increasing oxygen‐transfer efficiencies of fine‐bubble aeration systems remain, particularly by reducing mean bubble sizes and reducing EI requirements.

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    Oxygen‐transfer efficiency of fine‐pore diffused aeration systems: energy intensity as a unifying evaluation parameter

    Neue Suche nach: Newbry, Brooks W.

    Assessing the clean‐water oxygen‐transfer characteristics of aeration devices is a critical step in the design and operation of aeration systems for activated‐sludge processes. A fundamental model has been developed for assessing the clean‐water oxygen‐transfer characteristics of fine‐bubble (fine‐pore) aeration devices. This model is based on a proposed fundamental parameter, energy intensity (EI; kW/m3), which is the energy required to deliver air to the aerated volume per unit of aerated volume. The standard oxygen transfer rate (SOTR, g/m3 · s) is shown to be related to EI through a second‐degree equation: SOTR = −11.5 EI2 + 2.27 EI (r2 = 0.951). The model applies over a wide range of diffuser types, diffuser densities, tank dimensions, and specific air flows. The results suggest that opportunities for increasing oxygen‐transfer efficiencies of fine‐bubble aeration systems remain, particularly by reducing mean bubble sizes and reducing EI requirements.

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    Oxygen‐transfer efficiency of fine‐pore diffused aeration systems: energy intensity as a unifying evaluation parameter

    Neue Suche nach: Newbry, Brooks W.

    Assessing the clean‐water oxygen‐transfer characteristics of aeration devices is a critical step in the design and operation of aeration systems for activated‐sludge processes. A fundamental model has been developed for assessing the clean‐water oxygen‐transfer characteristics of fine‐bubble (fine‐pore) aeration devices. This model is based on a proposed fundamental parameter, energy intensity (EI; kW/m3), which is the energy required to deliver air to the aerated volume per unit of aerated volume. The standard oxygen transfer rate (SOTR, g/m3 · s) is shown to be related to EI through a second‐degree equation: SOTR = −11.5 EI2 + 2.27 EI (r2 = 0.951). The model applies over a wide range of diffuser types, diffuser densities, tank dimensions, and specific air flows. The results suggest that opportunities for increasing oxygen‐transfer efficiencies of fine‐bubble aeration systems remain, particularly by reducing mean bubble sizes and reducing EI requirements.

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    Titel:

    Oxygen‐transfer efficiency of fine‐pore diffused aeration systems: energy intensity as a unifying evaluation parameter

    Beteiligte:

    Newbry, Brooks W. (Autor:in)

    Erschienen in:

    Water Environment Research ; 70 ; 323-333

    Erscheinungsdatum:

    01.05.1998

    Format / Umfang:

    11 pages

    ISSN:

    1554-7531 , 1061-4303

    DOI:

    https://doi.org/10.2175/106143098X124957

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    AERATION , FINE‐PORE DIFFUSERS , AERATOR TESTING , ACTIVATED SLUDGE , ENERGY INTENSITY , OXYGEN TRANSFER

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