Greben, HAMaree, JPEloff, EMurray, K2007-03-282007-06-072007-03-282007-06-072005-07Greben, HA, et al. 2005. Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor. Water SA, vol. 31(3), pp 351-3580378-4738http://hdl.handle.net/10204/2163http://hdl.handle.net/10204/2163The product of the biological sulphate reduction is sulphide. High concentrations of molecular H2S(g) can be inhibitory for microbial activity, especially at a reactor pH of 6 to 7. This paper focuses on the effect of high sulphide concentrations on the sulphate reduction rates. The results of three investigations operating a continuous reactor, a column reactor and batch-test reactors have shown that increased sulphide concentrations have resulted in improved biological sulphate reduction. In all instances the reactor pH was kept at 7.5 to 8.5. It was shown that when the sulphide concentration was 700 mg/l in a continuously operated reactor, the sulphate reduction rate was 12 gSO(4)/l(.)d. When operating batch-test reactors the results showed that when the sulphide concentration increased, to 1 400 mg/l, the volumetric and specific sulphate reduction rates correspondingly increased to 4.9 gSO(4)/l(.)d and 1.5 gSO (4)/gVSS, respectively. Thirdly, operating a tall column reactor using H-2 and CO2 as the energy source, showed that when the initial sulphide concentration of the feed water was 0, 100 and 268 mg/l, the average biological sulphate removals were 650, 1 275 and 1 475 mg/l, respectively. These obtained results indicated that the addition of sulphide to the feed water to the reactor had a positive effect on sulphate removal. Improved sulphate removal results in increased alkalinity production and in an increased reactor pH, which in turn is favourable for a decrease in the redox potential, when a dominant redox couple, like sulphate: sulphide, is present in a reactor.549288 bytesapplication/pdfenCopyright: 2005 Water Research CommissionAlkalinityRedox valueSulphate reduction rateSulphide toxicityWater resourcesArticleGreben, H., Maree, J., Eloff, E., & Murray, K. (2005). Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor. http://hdl.handle.net/10204/2163Greben, HA, JP Maree, E Eloff, and K Murray "Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor." (2005) http://hdl.handle.net/10204/2163Greben H, Maree J, Eloff E, Murray K. Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor. 2005; http://hdl.handle.net/10204/2163.TY - Article AU - Greben, HA AU - Maree, JP AU - Eloff, E AU - Murray, K AB - The product of the biological sulphate reduction is sulphide. High concentrations of molecular H2S(g) can be inhibitory for microbial activity, especially at a reactor pH of 6 to 7. This paper focuses on the effect of high sulphide concentrations on the sulphate reduction rates. The results of three investigations operating a continuous reactor, a column reactor and batch-test reactors have shown that increased sulphide concentrations have resulted in improved biological sulphate reduction. In all instances the reactor pH was kept at 7.5 to 8.5. It was shown that when the sulphide concentration was 700 mg/l in a continuously operated reactor, the sulphate reduction rate was 12 gSO(4)/l(.)d. When operating batch-test reactors the results showed that when the sulphide concentration increased, to 1 400 mg/l, the volumetric and specific sulphate reduction rates correspondingly increased to 4.9 gSO(4)/l(.)d and 1.5 gSO (4)/gVSS, respectively. Thirdly, operating a tall column reactor using H-2 and CO2 as the energy source, showed that when the initial sulphide concentration of the feed water was 0, 100 and 268 mg/l, the average biological sulphate removals were 650, 1 275 and 1 475 mg/l, respectively. These obtained results indicated that the addition of sulphide to the feed water to the reactor had a positive effect on sulphate removal. Improved sulphate removal results in increased alkalinity production and in an increased reactor pH, which in turn is favourable for a decrease in the redox potential, when a dominant redox couple, like sulphate: sulphide, is present in a reactor. DA - 2005-07 DB - ResearchSpace DP - CSIR KW - Alkalinity KW - Redox value KW - Sulphate reduction rate KW - Sulphide toxicity KW - Water resources LK - https://researchspace.csir.co.za PY - 2005 SM - 0378-4738 T1 - Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor TI - Improved sulphate removal rates at increased sulphide concentration in the sulphidogenic bioreactor UR - http://hdl.handle.net/10204/2163 ER -