Wastewater dewatering polymer affect on biosolids odor emissions and microbial activity

Odor emissions and microbial activity associated with biosolids dewatered using seven different polyacrylamide cationic polymers were investigated. Nitrogen, sulfur, ketone, and odor unit emissions, and biosolids microbial community metabolic profiles were measured for biosolids containing each poly...

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Veröffentlicht in:Water environment research : a research publication of the Water Environment Federation. - 1998. - 73(2001), 3 vom: 15. Mai, Seite 363-7
1. Verfasser: Rosenfeld, P E (VerfasserIn)
Weitere Verfasser: Henry, C L, Bennett, D
Format: Aufsatz
Sprache:English
Veröffentlicht: 2001
Zugriff auf das übergeordnete Werk:Water environment research : a research publication of the Water Environment Federation
Schlagworte:Journal Article Amino Acids Ketones Polymers Sulfides Sulfur 70FD1KFU70 Nitrogen N762921K75
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245 1 0 |a Wastewater dewatering polymer affect on biosolids odor emissions and microbial activity 
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500 |a Date Completed 25.10.2001 
500 |a Date Revised 21.09.2019 
500 |a published: Print 
500 |a CommentIn: Water Environ Res. 2003 Jan-Feb;75(1):92-3. - PMID 12683468 
500 |a Citation Status MEDLINE 
520 |a Odor emissions and microbial activity associated with biosolids dewatered using seven different polyacrylamide cationic polymers were investigated. Nitrogen, sulfur, ketone, and odor unit emissions, and biosolids microbial community metabolic profiles were measured for biosolids containing each polymer. Ammonia represented more than 98% of total nitrogen flux for all polymers, with small concentrations of trimethyl amine. Dimethyl disulfide and carbon disulfide fluxes summed represented 87 to 97% of the sulfur flux for all polymers, with lesser quantities of dimethyl sulfide. Maximum dimethyl disulfide, ammonia, and trimethyl amine concentrations were estimated to be 3.4, 3.2, and 13.5 times greater than published detection limits, respectively. Maximum dimethyl sulfide, carbon disulfide, acetone, and methyl ethyl ketone concentrations were estimated to be 0.028, 0.007, 0.002, and 0.0006 times less than published detection limits, respectively. All treatments were found to volatilize equal odor unit emissions (with the exception of one polymer), and polymers were not found to dramatically affect odor emission from biosolids application. Metabolic fingerprints revealed differences in the ability of microbial communities from certain polymer treatments to degrade amino acids as a sole carbon substrate. In addition, odor unit emissions were significantly correlated with potential for amino acid decomposition 
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650 7 |a Nitrogen  |2 NLM 
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700 1 |a Henry, C L  |e verfasserin  |4 aut 
700 1 |a Bennett, D  |e verfasserin  |4 aut 
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