Effect of As(III) on kinetics of Fe2+ bio-oxidation
(1. School of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China;
2. Scientific Research Academy of Guangxi Environmental Protection, Nanning 530022, China)
2. Scientific Research Academy of Guangxi Environmental Protection, Nanning 530022, China)
Abstract: Fe2+ bio-oxidation influenced by toxic metal ions released from the dissolution of arsenic-bearing gold ores was investigated. Fe2+ bio-oxidation by moderately thermophilic microorganisms was studied under different initial concentrations of Fe2+ and As(III), and Monod equation was used to fit the Fe2+ bio-oxidation under different conditions. Results showed that the Fe2+ bio-oxidation rate increased as the initial Fe2+ concentration increased until it reached 12 g/L. As(III) severely inhibited Fe2+ bio-oxidation. When the As(III) concentration was 8 g/L, 9 g/L Fe2+ was more than 200 h. The Monod equation fitted the Fe2+ bio-oxidation well. In the absence of As(III), the maximum specific growth rate of the culture and the substrate affinity constant were 0.142 h-1 and 0.053 g/L, respectively. As(III) inhibited Fe2+ bio-oxidation via competitive inhibition, and the inhibition constant was 0.0035 g/L.
Key words: moderately thermophilic microorganisms; Fe2+ bio-oxidation; As(III); As-bearing gold concentrate; kinetics