Influences of hydraulic loading rate on SVOC removal and microbial community structure in drinking water treatment biofilters

Six biofilters were used for advanced treatment of Yangtze River source water to investigate the effects of hydraulic loading rate (HLR) on pollutant removal and microbial community. HLR was found to exert significant influences on the removal efficiency of the conventional pollutants and 24 detecta...

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Published in	Journal of hazardous materials Vol. 178; no. 1; pp. 652 - 657
Main Authors	Zhang, Xu-Xiang, Zhang, Zong-Yao, Ma, Li-Ping, Liu, Ning, Wu, Bing, Zhang, Yan, Li, Ai-Min, Cheng, Shu-Pei
Format	Journal Article
Language	English
Published	Kidlington Elsevier B.V 15.06.2010 Elsevier
Subjects	Applied sciences Bacteria Biological and medical sciences Biological filtration Biomass Biotechnology Chemical engineering Communities Continental surface waters DNA, Bacterial - genetics DNA, Bacterial - isolation & purification Drinking water Drinking water and swimming-pool water. Desalination Drinking water treatment Electrophoresis, Gel, Pulsed-Field Exact sciences and technology Filtration - methods Firmicutes Fluid dynamics Fluid flow Fundamental and applied biological sciences. Psychology Hydraulic loading rate Hydraulics Methods. Procedures. Technologies Microorganisms Molecular Sequence Data Natural water pollution Organic Chemicals - chemistry Others Pollutants Pollution Reactors Reverse Transcriptase Polymerase Chain Reaction RNA, Ribosomal, 16S - analysis Semivolatile organic compounds Various methods and equipments Water Microbiology Water Pollutants, Chemical - isolation & purification Water Purification - methods Water Supply - analysis Water Supply - standards Water treatment and pollution Yangtze River China, People's Rep., Changjiang R Drinking water treatment Hydraulic loading rate Biological filtration Semivolatile organic compounds Yangtze River Community structure Escherichia coli Volatile organic compound Low volatile compound Biological purification Pollutant Bioreactor Loading Chemical oxygen demand Trend analysis Surface water Water quality Bacteria Stream Biofilter Microbial community Organic compounds Enterobacteriaceae
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Abstract	Six biofilters were used for advanced treatment of Yangtze River source water to investigate the effects of hydraulic loading rate (HLR) on pollutant removal and microbial community. HLR was found to exert significant influences on the removal efficiency of the conventional pollutants and 24 detectable semivolatile organic compounds (SVOCs). More than 85% of chemical oxygen demand and assimilable organic carbon was removed at the optimal HLR of 3.0 m h −1. With the increase of HLR, SVOC removal showed a decreasing trend. Di- n-butyl phthalate and bis(2-ethylhexyl)phthalate, two main SVOCs in the source water, had the highest removals of 71.2% and 84.4%, respectively. Nearly 65% of 2,6-dinitrotoluene and 80% of isophorone were removed at the lowest HLR. Phylogenetic analysis showed that Escherichia coli, Shigella sp., E. fergusonii and Firmicutes bacteria predominated in the bioreactors. The dominance of E. coli in the low-HLR biofilters might contribute greatly to the high SVOC removal.
AbstractList	Six biofilters were used for advanced treatment of Yangtze River source water to investigate the effects of hydraulic loading rate (HLR) on pollutant removal and microbial community. HLR was found to exert significant influences on the removal efficiency of the conventional pollutants and 24 detectable semivolatile organic compounds (SVOCs). More than 85% of chemical oxygen demand and assimilable organic carbon was removed at the optimal HLR of 3.0 m h(-1). With the increase of HLR, SVOC removal showed a decreasing trend. Di-n-butyl phthalate and bis(2-ethylhexyl)phthalate, two main SVOCs in the source water, had the highest removals of 71.2% and 84.4%, respectively. Nearly 65% of 2,6-dinitrotoluene and 80% of isophorone were removed at the lowest HLR. Phylogenetic analysis showed that Escherichia coli, Shigella sp., E. fergusonii and Firmicutes bacteria predominated in the bioreactors. The dominance of E. coli in the low-HLR biofilters might contribute greatly to the high SVOC removal. Six biofilters were used for advanced treatment of Yangtze River source water to investigate the effects of hydraulic loading rate (HLR) on pollutant removal and microbial community. HLR was found to exert significant influences on the removal efficiency of the conventional pollutants and 24 detectable semivolatile organic compounds (SVOCs). More than 85% of chemical oxygen demand and assimilable organic carbon was removed at the optimal HLR of 3.0 m h −1. With the increase of HLR, SVOC removal showed a decreasing trend. Di- n-butyl phthalate and bis(2-ethylhexyl)phthalate, two main SVOCs in the source water, had the highest removals of 71.2% and 84.4%, respectively. Nearly 65% of 2,6-dinitrotoluene and 80% of isophorone were removed at the lowest HLR. Phylogenetic analysis showed that Escherichia coli, Shigella sp., E. fergusonii and Firmicutes bacteria predominated in the bioreactors. The dominance of E. coli in the low-HLR biofilters might contribute greatly to the high SVOC removal. Six biofilters were used for advanced treatment of Yangtze River source water to investigate the effects of hydraulic loading rate (HLR) on pollutant removal and microbial community. HLR was found to exert significant influences on the removal efficiency of the conventional pollutants and 24 detectable semivolatile organic compounds (SVOCs). More than 85% of chemical oxygen demand and assimilable organic carbon was removed at the optimal HLR of 3.0mh super(-1). With the increase of HLR, SVOC removal showed a decreasing trend. Di-n-butyl phthalate and bis(2-ethylhexyl)phthalate, two main SVOCs in the source water, had the highest removals of 71.2% and 84.4%, respectively. Nearly 65% of 2,6-dinitrotoluene and 80% of isophorone were removed at the lowest HLR. Phylogenetic analysis showed that Escherichia coli, Shigella sp., E. fergusonii and Firmicutes bacteria predominated in the bioreactors. The dominance of E. coli in the low-HLR biofilters might contribute greatly to the high SVOC removal.
Author	Cheng, Shu-Pei Liu, Ning Zhang, Zong-Yao Zhang, Xu-Xiang Wu, Bing Ma, Li-Ping Zhang, Yan Li, Ai-Min
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Keywords	Drinking water treatment Hydraulic loading rate Biological filtration Semivolatile organic compounds Yangtze River Community structure Escherichia coli Volatile organic compound Low volatile compound Biological purification Pollutant Bioreactor Loading Chemical oxygen demand Trend analysis Surface water Water quality Bacteria Stream Biofilter Microbial community Organic compounds Enterobacteriaceae
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SubjectTerms	Applied sciences Bacteria Biological and medical sciences Biological filtration Biomass Biotechnology Chemical engineering Communities Continental surface waters DNA, Bacterial - genetics DNA, Bacterial - isolation & purification Drinking water Drinking water and swimming-pool water. Desalination Drinking water treatment Electrophoresis, Gel, Pulsed-Field Exact sciences and technology Filtration - methods Firmicutes Fluid dynamics Fluid flow Fundamental and applied biological sciences. Psychology Hydraulic loading rate Hydraulics Methods. Procedures. Technologies Microorganisms Molecular Sequence Data Natural water pollution Organic Chemicals - chemistry Others Pollutants Pollution Reactors Reverse Transcriptase Polymerase Chain Reaction RNA, Ribosomal, 16S - analysis Semivolatile organic compounds Various methods and equipments Water Microbiology Water Pollutants, Chemical - isolation & purification Water Purification - methods Water Supply - analysis Water Supply - standards Water treatment and pollution Yangtze River
Title	Influences of hydraulic loading rate on SVOC removal and microbial community structure in drinking water treatment biofilters
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