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J Hazard Mater


Title:Chemical speciation of sulfur and metals in biogas reactors - Implications for cobalt and nickel bio-uptake processes
Author(s):Yekta SS; Skyllberg U; Danielsson A; Bjorn A; Svensson BH;
Address:"Department of Thematic Studies-Environmental Change, Linkoping University, SE-581 83 Linkoping, Sweden. Electronic address: sepehr.shakeri.yekta@liu.se. Department of Forest Ecology and Management, Swedish University of Agricultural Sciences, SE-901 83 Umea, Sweden. Department of Thematic Studies-Environmental Change, Linkoping University, SE-581 83 Linkoping, Sweden"
Journal Title:J Hazard Mater
Year:2017
Volume:20160102
Issue:Pt A
Page Number:110 - 116
DOI: 10.1016/j.jhazmat.2015.12.058
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"This article deals with the interrelationship between overall chemical speciation of S, Fe, Co, and Ni in relation to metals bio-uptake processes in continuous stirred tank biogas reactors (CSTBR). To address this topic, laboratory CSTBRs digesting sulfur(S)-rich stillage, as well as full-scale CSTBRs treating sewage sludge and various combinations of organic wastes, termed co-digestion, were targeted. Sulfur speciation was evaluated using acid volatile sulfide extraction and X-ray absorption spectroscopy. Metal speciation was evaluated by chemical fractionation, kinetic and thermodynamic analyses. Relative Fe to S content is identified as a critical factor for chemical speciation and bio-uptake of metals. In reactors treating sewage sludge, quantity of Fe exceeds that of S, inducing Fe-dominated conditions, while sulfide dominates in laboratory and co-digestion reactors due to an excess of S over Fe. Under sulfide-dominated conditions, metals availability for microorganisms is restricted due to formation of metal-sulfide precipitates. However, aqueous concentrations of different Co and Ni species were shown to be sufficient to support metal acquisition by microorganisms under sulfidic conditions. Concentrations of free metal ions and labile metal complexes in aqueous phase, which directly participate in bio-uptake processes, are higher under Fe-dominated conditions. This in turn enhances metal adsorption on cell surfaces and bio-uptake rates"
Keywords:"Anaerobiosis *Biofuels Bioreactors Cobalt/*chemistry Iron/chemistry Metals/*chemistry Nickel/*chemistry Sewage/analysis Sulfur Compounds/*chemistry Waste Disposal, Fluid Bio-uptake Biogas Chemical speciation Cobalt Iron Nickel Sulfur;"
Notes:"MedlineYekta, Sepehr Shakeri Skyllberg, Ulf Danielsson, Asa Bjorn, Annika Svensson, Bo H eng Netherlands 2016/01/19 J Hazard Mater. 2017 Feb 15; 324(Pt A):110-116. doi: 10.1016/j.jhazmat.2015.12.058. Epub 2016 Jan 2"

 
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