Comparison of nitrification performance and microbial community between submerged membrane bioreactor and conventional activated sludge system
A submerged membrane bioreactor (SMBR) and a conventional activated sludge system (CAS) were compared in parallel over a period of more than 260 days on treating synthetic ammonia-bearing inorganic wastewater without sludge purge under decreased hydraulic retention times (HRTs). Conversion of NH4(+)...
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| Published in: | Water science and technology Vol. 51; no. 6-7; pp. 193 - 200 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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IWA Publishing
01-01-2005
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| Abstract | A submerged membrane bioreactor (SMBR) and a conventional activated sludge system (CAS) were compared in parallel over a period of more than 260 days on treating synthetic ammonia-bearing inorganic wastewater without sludge purge under decreased hydraulic retention times (HRTs). Conversion of NH4(+)-N to NO3(-)-N was achieved with an efficiency of over 98% at an HRT > or = 10 h in the SMBR, while similar performance was obtained at an HRT > or = 20 h in the CAS. Denaturing gradient gel electrophoresis (DGGE) of polymerase chain reaction (PCR) amplified 16S rDNA was used to monitor variations of community structures in the two systems. With the prolongation of operation, the number of DGGE bands in the SMBR gradually increased from the initial 11 bands to the final 22 bands, whereas that in the CAS varied in a range between 13 and 183 Sequence analysis indicates that Nitrosomonas sp. and Nitrospira sp. were the dominating nitrification species responsible for ammonia and nitrite oxidation, respectively. Heterotrophic bacteria like Pseudomonas sp. and Flavobacteria sp. existed in both of the systems although only inorganic wastewater was fed. Substantive accumulation of extracellular polymeric substances (EPS) in the SMBR was confirmed by scanning electron microscopy and EPS analysis. |
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| AbstractList | A submerged membrane bioreactor (SMBR) and a conventional activated sludge system (CAS) were compared in parallel over a period of more than 260 days on treating synthetic ammonia-bearing inorganic wastewater without sludge purge under decreased hydraulic retention times (HRTs). Conversion of NH4(+)-N to NO3(-)-N was achieved with an efficiency of over 98% at an HRT > or = 10 h in the SMBR, while similar performance was obtained at an HRT > or = 20 h in the CAS. Denaturing gradient gel electrophoresis (DGGE) of polymerase chain reaction (PCR) amplified 16S rDNA was used to monitor variations of community structures in the two systems. With the prolongation of operation, the number of DGGE bands in the SMBR gradually increased from the initial 11 bands to the final 22 bands, whereas that in the CAS varied in a range between 13 and 183 Sequence analysis indicates that Nitrosomonas sp. and Nitrospira sp. were the dominating nitrification species responsible for ammonia and nitrite oxidation, respectively. Heterotrophic bacteria like Pseudomonas sp. and Flavobacteria sp. existed in both of the systems although only inorganic wastewater was fed. Substantive accumulation of extracellular polymeric substances (EPS) in the SMBR was confirmed by scanning electron microscopy and EPS analysis. A submerged membrane bioreactor (SMBR) and a conventional activated sludge system (CAS) were compared in parallel over a period of more than 260 days on treating synthetic ammonia-bearing inorganic wastewater without sludge purge under decreased hydraulic retention times (HRTs). Conversion of NH4+-N to NO3--N was achieved with an efficiency of over 98% at an HRT ≥ 10 h in the SMBR, while similar performance was obtained at an HRT ≥ 20 h in the CAS. Denaturing gradient gel electrophoresis (DGGE) of polymerase chain reaction (PCR) amplified 16S rDNA was used to monitor variations of community structures in the two systems. With the prolongation of operation, the number of DGGE bands in the SMBR gradually increased from the initial 11 bands to the final 22 bands, whereas that in the CAS varied in a range between 13 and 183 Sequence analysis indicates that Nitrosomonas sp. and Nitrospira sp. were the dominating nitrification species responsible for ammonia and nitrite oxidation, respectively. Heterotrophic bacteria like Pseudomonas sp. and Flavobacteria sp. existed in both of the systems although only inorganic wastewater was fed. Substantive accumulation of extracellular polymeric substances (EPS) in the SMBR was confirmed by scanning electron microscopy and EPS analysis. |
| Author | Li, H Liu, X Kamagata, Y Zhang, Y Yang, M Gao, M |
| Author_xml | – sequence: 1 givenname: H surname: Li fullname: Li, H organization: State Key Laboratory of Environmental Aquatic Chemistry, Research Center for Eco-Environmental Science, Chinese Academy of Science, Beijing 100085, People's Republic of China – sequence: 2 givenname: M surname: Yang fullname: Yang, M – sequence: 3 givenname: Y surname: Zhang fullname: Zhang, Y – sequence: 4 givenname: X surname: Liu fullname: Liu, X – sequence: 5 givenname: M surname: Gao fullname: Gao, M – sequence: 6 givenname: Y surname: Kamagata fullname: Kamagata, Y |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/16003978$$D View this record in MEDLINE/PubMed |
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| DOI | 10.2166/wst.2005.0638 |
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| SubjectTerms | Activated sludge Ammonia Ammonia - metabolism Analytical methods Bacteria Bacteria - growth & development Biopolymers - metabolism Bioreactors Communities DNA Electron microscopy Extracellular Gel electrophoresis Gels Heterotrophic bacteria Inorganic Chemicals - metabolism Inorganic wastes Membranes, Artificial Microorganisms Microscopy, Electron, Scanning Nitrification Nitrites - chemistry Nitrites - metabolism Nucleotide sequence Oxidation PCR Polymerase chain reaction Prolongation RNA, Ribosomal, 16S - genetics rRNA 16S Scanning electron microscopy Sewage - microbiology Sludge Time Factors Wastewater Wastewater treatment Water Microbiology Water Pollutants, Chemical - metabolism Water treatment plants |
| Title | Comparison of nitrification performance and microbial community between submerged membrane bioreactor and conventional activated sludge system |
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