Optimization of ferrous biooxidation rate in a packed bed bioreactor using Taguchi approach

Abstract

The biological oxidation of ferrous ion by iron-oxidizing bacteria is potentially a useful industrial process for removal of H 2S from industrial gases, desulphurization of coal, removal of sulfur dioxide from flue gas, treatment of acid mine drainage and regeneration of an oxidant agent in hydrometallurgical leaching operations. The main purpose of this study was to find optimum values of the process parameters on the ferrous biooxidation rate by immobilization of a native Sulfobacillus species on the surface of low density polyethylene (LDPE) particles in a packed-bed bioreactor using Taguchi method. Five control factors, including temperature, initial pH of feed solution, dilution rate, initial concentration of Fe 3+ and aeration rate in four levels are considered in Taguchi technique. L 16 orthogonal array has been used to determine the signal to noise (S/N) ratio. Analysis of variance (ANOVA) was used to determine the optimum conditions and most significant process parameters affecting the reaction rate. Analysis of the experiments using Taguchi method indicated that pH of feed solution has the most contribution in the biooxidation rate of ferrous ion. The biological reaction rate was obtained 8.4 g L −1 h −1 by setting the control factors according to the Taguchi approach. Finally, based on the primary results, a verification test was also performed to check the optimum condition.