Performance of an anaerobic bioreactor with biomass recycling, continuously removing COD and sulphate from industrial wastes
Copyright policy )Performance of an anaerobic bioreactor with biomass recycling, continuously removing COD and sulphate from industrial wastes
A 30-l anaerobic bioreactor with biomass recycling was used to provide a continuous reduction in sulphate and a continuous COD removal from wastewater, which consisted of the effluent from an industrial pig fattening farm, enriched with technical FeSO(4) x 7H(2)O, a waste product from ferrous metallurgy. The concentrations of sulphate and COD in the wastewater amounted to 2.73 g l(-1) and 3.15 g l(-1), respectively. The HRT (hydraulic retention time) of 10-1.7d produced an extent of sulphate and COD reduction which totalled 98% and 88%, respectively. When the HRT was further shortened, the efficiency of reduction in sulphate and COD decreased. The maximum removal rate constants for both the pollutants, calculated by means of a modified Stover-Kincannon model, were 80.9 g COD l(-1)d(-1) and 41.8 g SO(4)(2-)l(-1)d(-1), the values of the saturation constants being 91.582 g COD l(-1)d(-1) and 42.398 g SO(4)(2-)l(-1)d(-1).
Sulfates, Equipment Design, Models, Biological, Equipment Failure Analysis, Oxygen, Bioreactors, Computer-Aided Design, Computer Simulation, Desulfovibrio desulfuricans
Sulfates, Equipment Design, Models, Biological, Equipment Failure Analysis, Oxygen, Bioreactors, Computer-Aided Design, Computer Simulation, Desulfovibrio desulfuricans
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