Utilization of a Silicone Rubber Membrane for Passive Oxygen Supply in a Microbial Fuel Cell Treating Carbon and Nitrogen from Synthetic Coke-Oven Wastewater

This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and nitrogen from synthetic coke-oven wastewater diluted with seawater. Passive oxygen transport with biofilm on the membrane was improved by ~ 18-f...

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Published inApplied biochemistry and biotechnology Vol. 189; no. 1; pp. 217 - 232
Main Authors Wang, Fengyu, Matsubara, Hirokazu, Nittami, Tadashi, Fujita, Masafumi
Format Journal Article
LanguageEnglish
Published New York Springer US 01.09.2019
Springer Nature B.V
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Abstract This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and nitrogen from synthetic coke-oven wastewater diluted with seawater. Passive oxygen transport with biofilm on the membrane was improved by ~ 18-fold in comparison with the one without a biofilm. In addition, although the oxygen supply was passive, nitrification accounted for 34% of those aeration conditions. It was also found that silicone rubber membrane can control NO 2 − –N and/or NO 3 − –N production. A dual-chamber MFC treating the synthetic coke-oven wastewater achieved a maximum power density of 54 mW m −2 with a coulombic efficiency of 2.7%. We conclude that silicone rubber membrane is effective for sustainable coke-oven wastewater treatment in MFCs.
AbstractList This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and nitrogen from synthetic coke-oven wastewater diluted with seawater. Passive oxygen transport with biofilm on the membrane was improved by ~ 18-fold in comparison with the one without a biofilm. In addition, although the oxygen supply was passive, nitrification accounted for 34% of those aeration conditions. It was also found that silicone rubber membrane can control NO2−–N and/or NO3−–N production. A dual-chamber MFC treating the synthetic coke-oven wastewater achieved a maximum power density of 54 mW m−2 with a coulombic efficiency of 2.7%. We conclude that silicone rubber membrane is effective for sustainable coke-oven wastewater treatment in MFCs.
This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and nitrogen from synthetic coke-oven wastewater diluted with seawater. Passive oxygen transport with biofilm on the membrane was improved by ~ 18-fold in comparison with the one without a biofilm. In addition, although the oxygen supply was passive, nitrification accounted for 34% of those aeration conditions. It was also found that silicone rubber membrane can control NO -N and/or NO -N production. A dual-chamber MFC treating the synthetic coke-oven wastewater achieved a maximum power density of 54 mW m with a coulombic efficiency of 2.7%. We conclude that silicone rubber membrane is effective for sustainable coke-oven wastewater treatment in MFCs.
This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and nitrogen from synthetic coke-oven wastewater diluted with seawater. Passive oxygen transport with biofilm on the membrane was improved by ~ 18-fold in comparison with the one without a biofilm. In addition, although the oxygen supply was passive, nitrification accounted for 34% of those aeration conditions. It was also found that silicone rubber membrane can control NO 2 − –N and/or NO 3 − –N production. A dual-chamber MFC treating the synthetic coke-oven wastewater achieved a maximum power density of 54 mW m −2 with a coulombic efficiency of 2.7%. We conclude that silicone rubber membrane is effective for sustainable coke-oven wastewater treatment in MFCs.
Author Matsubara, Hirokazu
Fujita, Masafumi
Nittami, Tadashi
Wang, Fengyu
Author_xml – sequence: 1
  givenname: Fengyu
  surname: Wang
  fullname: Wang, Fengyu
  email: 16nd302n@vc.ibaraki.ac.jp
  organization: Major in Social Infrastructure System Science, Ibaraki University
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  givenname: Hirokazu
  surname: Matsubara
  fullname: Matsubara, Hirokazu
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  givenname: Masafumi
  surname: Fujita
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/30972705$$D View this record in MEDLINE/PubMed
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Keywords Phenol
Gas-permeable membrane
Nitrification
Volumetric oxygen mass transfer coefficient
Seawater
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Snippet This study firstly introduced a silicone rubber membrane (SRM) into microbial fuel cell (MFC) for passive oxygen supply to simultaneously remove phenol and...
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SubjectTerms Aeration
Biochemical fuel cells
Biochemistry
Bioelectric Energy Sources
Biofilms
Biotechnology
Carbon - administration & dosage
Chemistry
Chemistry and Materials Science
Coke
Coke ovens
Fuel cells
Fuel technology
Maximum power density
Membranes
Membranes, Artificial
Microorganisms
Nitrification
Nitrogen - administration & dosage
Nitrogen dioxide
Oxygen
Oxygen - administration & dosage
Phenols
Rubber
Seawater
Silicone Elastomers - chemistry
Silicone rubber
Silicones
Wastewater treatment
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Title Utilization of a Silicone Rubber Membrane for Passive Oxygen Supply in a Microbial Fuel Cell Treating Carbon and Nitrogen from Synthetic Coke-Oven Wastewater
URI https://link.springer.com/article/10.1007/s12010-019-02994-3
https://www.ncbi.nlm.nih.gov/pubmed/30972705
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Volume 189
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