Biological Catalysis Of The Oxidation Of Iron(II) In Acid Mine Waters In A Sequencing Batch Suspended Film Reactor

The use of a suspended growth system of Thiobacillus ferrooxidans attached in a film to individual particles of bentonite and operated as a sequencing batch reactor is shown to be a practical way of oxidizing ferrous iron in acid mine drainage. This component, followed by limestone neutralization, is both a technically and economically feasible approach to treating these waste waters, compared to existing and other proposed methods. The advantages, in addition to less expense, are greater safety, acceptable treatment at a lower pH, lower solids buildup, less danger of overtreatment, and greater flexibility in operational characteristics. In this paper, data on the continuous bench scale operation of the system under a variety of conditions shows sustained levels of oxidation in excess of 98%. Capital and operating costs are projected to be $80/1000 m3 ($80 per 35, 000 cu ft) of waste water.