Temporal variation of microbial population in a thermophilic biofilter for SO_2 removal 被引量：2

Temporal variation of microbial population in a thermophilic biofilter for SO_2 removal

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摘要 The performance of a biofilter relies on the activity of microorganisms during the gas contaminant treatment process. In this study, SO2 was treated using a laboratory-scale biofilter packed with polyurethane foam cubes（PUFC）, on which thermophilic desulfurization bacteria were attached. The thermophilic biofilter effectively reduced SO2 within 10 months of operation time, with a maximum elimination capacity of 48.29 g/m^3/hr.Temporal shifts in the microbial population in the thermophilic biofilter were determined through polymerase chain reaction-denaturing gradient gel electrophoresis and deoxyribonucleic acid（DNA） sequence analysis. The substrate species and environmental conditions in the biofilter influenced the microbial population. Oxygen distribution in the PUFC was analyzed using a microelectrode. When the water-containing rate in PUFC was over 98%, the oxygen distribution presented aerobic–anoxic–aerobic states along the test route on the PUFC. The appearance of sulfate-reducing bacteria was caused by the anaerobic conditions and sulfate formation after 4 months of operation. The performance of a biofilter relies on the activity of microorganisms during the gas contaminant treatment process. In this study, SO2 was treated using a laboratory-scale biofilter packed with polyurethane foam cubes（PUFC）, on which thermophilic desulfurization bacteria were attached. The thermophilic biofilter effectively reduced SO2 within 10 months of operation time, with a maximum elimination capacity of 48.29 g/m^3/hr.Temporal shifts in the microbial population in the thermophilic biofilter were determined through polymerase chain reaction-denaturing gradient gel electrophoresis and deoxyribonucleic acid（DNA） sequence analysis. The substrate species and environmental conditions in the biofilter influenced the microbial population. Oxygen distribution in the PUFC was analyzed using a microelectrode. When the water-containing rate in PUFC was over 98%, the oxygen distribution presented aerobic–anoxic–aerobic states along the test route on the PUFC. The appearance of sulfate-reducing bacteria was caused by the anaerobic conditions and sulfate formation after 4 months of operation.

作者 Jingying Zhang Lin Li Junxin Liu

机构地区 Research Center for Eco-Environmental Sciences

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2016年第1期4-12,共9页 环境科学学报（英文版）

基金 supported by the Major Science and Technology Program for Water Pollution Control and Treatment (No.2010ZX07319-001-03) the National Natural Science Foundation of China (No.51221892)

关键词 Thermophilic biofilter Sulfur dioxide Microbial population DGGE analysis O2 distribution Thermophilic biofilter Sulfur dioxide Microbial population DGGE analysis O2 distribution

分类号 X701 [环境科学与工程—环境工程]

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2016年第1期

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