TY - JOUR
T1 - Generation pattern of sulfur containing gases from anaerobically digested sludge cakes
AU - Novak, John T.
AU - Adams, Gregory
AU - Chen, Yen Chih
AU - Erdal, Zeynep
AU - Forbes, Robert H.
AU - Glindemann, Dietmar
AU - Hargreaves, J. Ronald
AU - Hentz, Lawrence
AU - Higgins, Matthew J.
AU - Murthy, Sudhir N.
AU - Witherspoon, Jay
PY - 2006/8
Y1 - 2006/8
N2 - Eleven dewatered sludge cakes collected from anaerobic digesters at different treatment plants were evaluated for the amount, type, and pattern of odorous gas production. All but one of the sludge cakes were from mesophilic anaerobic digesters. One was from a thermophilic digester. The pattern and quantities of sulfur gases were found to be unique for each of the samples with regard to the products produced, magnitude, and subsequent decline. The main odor-causing chemicals were volatile sulfur compounds, which included hydrogen sulfide, methanethiol, and dimethyl sulfide. Volatile sulfur compound production peaked in 3 to 8 days and then declined. The decline was a result of conversion of organic sulfur compounds to sulfide. In one side-by-side test, a high-solids centrifuge cake generated more odorous compounds than the low-solids centrifuge cake. The data show that anaerobic digestion does not eliminate the odor potential of anaerobically digested dewatered cakes.
AB - Eleven dewatered sludge cakes collected from anaerobic digesters at different treatment plants were evaluated for the amount, type, and pattern of odorous gas production. All but one of the sludge cakes were from mesophilic anaerobic digesters. One was from a thermophilic digester. The pattern and quantities of sulfur gases were found to be unique for each of the samples with regard to the products produced, magnitude, and subsequent decline. The main odor-causing chemicals were volatile sulfur compounds, which included hydrogen sulfide, methanethiol, and dimethyl sulfide. Volatile sulfur compound production peaked in 3 to 8 days and then declined. The decline was a result of conversion of organic sulfur compounds to sulfide. In one side-by-side test, a high-solids centrifuge cake generated more odorous compounds than the low-solids centrifuge cake. The data show that anaerobic digestion does not eliminate the odor potential of anaerobically digested dewatered cakes.
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U2 - 10.2175/106143006X101700
DO - 10.2175/106143006X101700
M3 - Article
C2 - 17059135
AN - SCOPUS:33749598005
SN - 1061-4303
VL - 78
SP - 821
EP - 827
JO - Water Environment Research
JF - Water Environment Research
IS - 8
ER -