A full-scale integrated-bioreactor with two zones treating odours from sludge thickening tank and dewatering house： performance and microbial characteristics

A full-scale integrated-bioreactor consisting of a suspended zone and an immobilized zone was employed to treat the ordours emitted from a wastewater treatment plant. The inlet concentrations of H,S and NH3 were 1.6-38.6 mg.m-3 and 0.1 6.7 mg.m-3 respectively, while the steady-state outlet concentra...

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Veröffentlicht in:	Frontiers of environmental science & engineering 2017-08, Vol.11 (4), p.171-178, Article 6
Hauptverfasser:	Liu, Jianwei, Yang, Kaixiong, Li, Lin, Zhang, Jingying
Format:	Artikel
Sprache:	eng
Schlagworte:	Ammonia Biodegradation Biofilms Biological deodorization Bioreactors Dewatering Earth and Environmental Science Environment Environmental conditions Hydrogen sulfide Liquid phases Microbial characteristics Microorganisms Neutralization Nitration Odors Pollutants Research Article Sludge Sludge thickening Substrates Sulfur VOCs Volatile organic compounds Wastewater treatment Wastewater treatment plant Wastewater treatment plants Water treatment 一体化生物反应器两段式亚硝酸盐入口浓度微生物学特性性能污泥浓缩池脱水
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description	A full-scale integrated-bioreactor consisting of a suspended zone and an immobilized zone was employed to treat the ordours emitted from a wastewater treatment plant. The inlet concentrations of H,S and NH3 were 1.6-38.6 mg.m-3 and 0.1 6.7 mg.m-3 respectively, while the steady-state outlet concentrations were reduced to 0-2.8mg.m - for H2S and 0-0.5mg.m for NH3. BothH2SandNH3 were eliminated effectively by the integrated-bioreactor. The removal efficiencies of H2S and NH3 differed between the two zones. Four species of microorganisms related to the degradation of H2S and NH3 were isolated. The characteristics and distributions of the microbes in the bioreactor depended on the inlet concentration of substrates and the micro-environmental conditions in the individual zones. Product analysis indicated that most of the H2S was oxidized into sulfate in the immobilized zone but was dissolved into the liquid phase in the suspended zone. A large amount of NH3 was converted into nitrate and nitrite by nitration in the suspended zone, whereas only a small amount of NH3 was transferred to the aqueous phase mainly by absorption or chemical neutralization in the immobilized zone. Different microbial populations dominated the individual zones, and the major biodegradation products varied accordingly.
doi_str_mv	10.1007/s11783-017-0932-8
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The inlet concentrations of H,S and NH3 were 1.6-38.6 mg.m-3 and 0.1 6.7 mg.m-3 respectively, while the steady-state outlet concentrations were reduced to 0-2.8mg.m - for H2S and 0-0.5mg.m for NH3. BothH2SandNH3 were eliminated effectively by the integrated-bioreactor. The removal efficiencies of H2S and NH3 differed between the two zones. Four species of microorganisms related to the degradation of H2S and NH3 were isolated. The characteristics and distributions of the microbes in the bioreactor depended on the inlet concentration of substrates and the micro-environmental conditions in the individual zones. Product analysis indicated that most of the H2S was oxidized into sulfate in the immobilized zone but was dissolved into the liquid phase in the suspended zone. 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Environ. Sci. Eng</addtitle><addtitle>Frontiers of Environmental Science ＆ Engineering in China</addtitle><description>A full-scale integrated-bioreactor consisting of a suspended zone and an immobilized zone was employed to treat the ordours emitted from a wastewater treatment plant. The inlet concentrations of H,S and NH3 were 1.6-38.6 mg.m-3 and 0.1 6.7 mg.m-3 respectively, while the steady-state outlet concentrations were reduced to 0-2.8mg.m - for H2S and 0-0.5mg.m for NH3. BothH2SandNH3 were eliminated effectively by the integrated-bioreactor. The removal efficiencies of H2S and NH3 differed between the two zones. Four species of microorganisms related to the degradation of H2S and NH3 were isolated. The characteristics and distributions of the microbes in the bioreactor depended on the inlet concentration of substrates and the micro-environmental conditions in the individual zones. Product analysis indicated that most of the H2S was oxidized into sulfate in the immobilized zone but was dissolved into the liquid phase in the suspended zone. A large amount of NH3 was converted into nitrate and nitrite by nitration in the suspended zone, whereas only a small amount of NH3 was transferred to the aqueous phase mainly by absorption or chemical neutralization in the immobilized zone. 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Environ. Sci. Eng</stitle><addtitle>Frontiers of Environmental Science ＆ Engineering in China</addtitle><date>2017-08-01</date><risdate>2017</risdate><volume>11</volume><issue>4</issue><spage>171</spage><epage>178</epage><pages>171-178</pages><artnum>6</artnum><issn>2095-2201</issn><eissn>2095-221X</eissn><abstract>A full-scale integrated-bioreactor consisting of a suspended zone and an immobilized zone was employed to treat the ordours emitted from a wastewater treatment plant. The inlet concentrations of H,S and NH3 were 1.6-38.6 mg.m-3 and 0.1 6.7 mg.m-3 respectively, while the steady-state outlet concentrations were reduced to 0-2.8mg.m - for H2S and 0-0.5mg.m for NH3. BothH2SandNH3 were eliminated effectively by the integrated-bioreactor. The removal efficiencies of H2S and NH3 differed between the two zones. Four species of microorganisms related to the degradation of H2S and NH3 were isolated. The characteristics and distributions of the microbes in the bioreactor depended on the inlet concentration of substrates and the micro-environmental conditions in the individual zones. Product analysis indicated that most of the H2S was oxidized into sulfate in the immobilized zone but was dissolved into the liquid phase in the suspended zone. A large amount of NH3 was converted into nitrate and nitrite by nitration in the suspended zone, whereas only a small amount of NH3 was transferred to the aqueous phase mainly by absorption or chemical neutralization in the immobilized zone. Different microbial populations dominated the individual zones, and the major biodegradation products varied accordingly.</abstract><cop>Beijing</cop><pub>Higher Education Press</pub><doi>10.1007/s11783-017-0932-8</doi><tpages>8</tpages></addata></record>
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subjects	Ammonia Biodegradation Biofilms Biological deodorization Bioreactors Dewatering Earth and Environmental Science Environment Environmental conditions Hydrogen sulfide Liquid phases Microbial characteristics Microorganisms Neutralization Nitration Odors Pollutants Research Article Sludge Sludge thickening Substrates Sulfur VOCs Volatile organic compounds Wastewater treatment Wastewater treatment plant Wastewater treatment plants Water treatment 一体化生物反应器两段式亚硝酸盐入口浓度微生物学特性性能污泥浓缩池脱水
title	A full-scale integrated-bioreactor with two zones treating odours from sludge thickening tank and dewatering house： performance and microbial characteristics
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