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« Previous AbstractDegradation of methanethiol in a continuously operated upflow anaerobic sludge-blanket reactor    Next AbstractMinimizing Bee (Hymenoptera: Apoidea) Bycatch in Japanese Beetle Traps »

Biotechnol Bioeng


Title:Development of a novel process for the biological conversion of H2S and methanethiol to elemental sulfur
Author(s):Sipma J; Janssen AJ; Pol LW; Lettinga G;
Address:"Sub-department of Environmental Technology, Wageningen University, Bomenweg 2, P.O. Box 8129, 6700 EV Wageningen, The Netherlands. jan.sipma@algemeen.mt.wau.nl"
Journal Title:Biotechnol Bioeng
Year:2003
Volume:82
Issue:1
Page Number:1 - 11
DOI: 10.1002/bit.10533
ISSN/ISBN:0006-3592 (Print) 0006-3592 (Linking)
Abstract:"The feasibility of anaerobic treatment of wastewater containing methanethiol (MT), an extremely volatile and malodorous sulfur compound, was investigated in lab-scale bioreactors. Inoculum biomass originating from full-scale anaerobic wastewater treatment facilities was used. Several sludges, tested for their ability to degrade MT, revealed the presence of organisms capable of metabolizing MT as their sole source of energy. Furthermore, batch tests were executed to gain a better understanding of the inhibition potential of MT. It was found that increasing MT concentrations affected acetotrophic organisms more dramatically than methylotrophic organisms. Continuous reactor experiments, using two lab-scale upflow anaerobic sludge bed (UASB) reactors (R1 and R2), aimed to determine the maximal MT load and the effect of elevated sulfide concentrations on MT conversion. Both reactors were operated at a hydraulic retention time (HRT) of about 7 hours, a temperature of 30 degrees C, and a pH of between 7.3 and 7.6. At the highest influent MT concentration applied, 14 mM in R1, corresponding to a volumetric loading rate of about 50 mM MT per day, 87% of the organic sulfur was recovered as hydrogen sulfide (12.2 mM) and the remainder as volatile organic sulfur compounds (VOSCs). Upon decreasing the HRT to 3.5 to 4.0 h at a constant MT loading rate, the sulfide concentration in the reactor decreased to 8 mM and MT conversion efficiency increased to values near 100%. MT conversion was apparently inhibited by the high sulfide concentrations in the reactor. The specific MT degradation rate, as determined after 120 days of operation in R1, was 2.83 +/- 0.27 mmol MT g VSS(-1) day(-1). During biological desulfurization of liquid hydrocarbon phases, such as with liquefied petroleum gas (LPG), the combined removal of hydrogen sulfide and MT is desired. In R2, the simultaneous addition of sodium sulfide and MT was therefore studied and the effect of elevated sulfide concentrations was investigated. The addition of sodium sulfide resulted in enhanced disintegration of sludge granules, causing significant washout of biomass. Additional acetate, added to stimulate growth of methanogenic bacteria to promote granulation, was hardly converted at the termination of the experimental period"
Keywords:"Bacteria, Anaerobic/*metabolism Biodegradation, Environmental Bioreactors/*microbiology Equipment Design Feasibility Studies Hydrogen Sulfide/*metabolism Industrial Waste/prevention & control Pilot Projects Quality Control Sewage/*microbiology Sulfhydryl;"
Notes:"MedlineSipma, Jan Janssen, Albert J H Pol, Look W Hulshoff Lettinga, Gatze eng Comparative Study Evaluation Study Research Support, Non-U.S. Gov't 2003/02/06 Biotechnol Bioeng. 2003 Apr 5; 82(1):1-11. doi: 10.1002/bit.10533"

 
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