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    Gas Permeable‐Membrane for Hydrogenotrophic Denitrification

    New search for: Hasar, Halil
    New search for: Ipek, Ubeyde

    10.1002/clen.200900193.abs

    The membrane biofilm reactor (MBfR) involves a process in which the membrane provides effective H2utilization as an electron donor. MBfRs overcome the problems caused from the particularly low solubility of the gas delivered into a liquid by means of a gas‐permeable membrane. The study demonstrates that the MBfR is successful in the effective removal of nitrate from drinking water or nitrified water, involving a hydraulic retention time of 25 min for a maximum nitrate removal of 98%. The H2 flux reaches a level of 1.24 g H2/m2 d when the denitrification rate achieves 3.5 g N/m2 d at 0.2 atm H2 pressure. The results indicate that the biofilm on outer walls of the gas permeable membrane utilizes all of the H2 gas effectively as an electron donor since the H2 is not detectable in the bulk liquid. In the future, the MBfR could be an attractive process for water and wastewater engineers due to its applicability for treatment of secondary effluent from industrial and municipal wastewater and drinking water.

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    Gas Permeable‐Membrane for Hydrogenotrophic Denitrification

    New search for: Hasar, Halil
    New search for: Ipek, Ubeyde

    10.1002/clen.200900193.abs

    The membrane biofilm reactor (MBfR) involves a process in which the membrane provides effective H2utilization as an electron donor. MBfRs overcome the problems caused from the particularly low solubility of the gas delivered into a liquid by means of a gas‐permeable membrane. The study demonstrates that the MBfR is successful in the effective removal of nitrate from drinking water or nitrified water, involving a hydraulic retention time of 25 min for a maximum nitrate removal of 98%. The H2 flux reaches a level of 1.24 g H2/m2 d when the denitrification rate achieves 3.5 g N/m2 d at 0.2 atm H2 pressure. The results indicate that the biofilm on outer walls of the gas permeable membrane utilizes all of the H2 gas effectively as an electron donor since the H2 is not detectable in the bulk liquid. In the future, the MBfR could be an attractive process for water and wastewater engineers due to its applicability for treatment of secondary effluent from industrial and municipal wastewater and drinking water.

    Access

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    Check availability in my library
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    Gas Permeable‐Membrane for Hydrogenotrophic Denitrification

    New search for: Hasar, Halil
    New search for: Ipek, Ubeyde

    10.1002/clen.200900193.abs

    The membrane biofilm reactor (MBfR) involves a process in which the membrane provides effective H2utilization as an electron donor. MBfRs overcome the problems caused from the particularly low solubility of the gas delivered into a liquid by means of a gas‐permeable membrane. The study demonstrates that the MBfR is successful in the effective removal of nitrate from drinking water or nitrified water, involving a hydraulic retention time of 25 min for a maximum nitrate removal of 98%. The H2 flux reaches a level of 1.24 g H2/m2 d when the denitrification rate achieves 3.5 g N/m2 d at 0.2 atm H2 pressure. The results indicate that the biofilm on outer walls of the gas permeable membrane utilizes all of the H2 gas effectively as an electron donor since the H2 is not detectable in the bulk liquid. In the future, the MBfR could be an attractive process for water and wastewater engineers due to its applicability for treatment of secondary effluent from industrial and municipal wastewater and drinking water.

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    Title:

    Gas Permeable‐Membrane for Hydrogenotrophic Denitrification

    Contributors:

    Hasar, Halil (author) / Ipek, Ubeyde (author)

    Published in:

    CLEAN – Soil, Air, Water ; 38 ; 23-26

    Publication date:

    2010-01-01

    Size:

    4 pages

    ISSN:

    1863-0650 , 1863-0669

    DOI:

    https://doi.org/10.1002/clen.200900193

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Membrane biofilm reactor , Denitrification rate , Hydrogenotrophic denitrification , Nitrate flux , Hydrogen flux

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