Biological sulphate removal from acid mine effluent using ethanol as carbon and energy source

Mining effluents are major contributors to mineralization of receiving wate rs and can be toxic to man, animals and plants due to unacceptably high con centrations of heavy metals. A biological sulphate removal process has been developed for the treatment of sulphate-rich industrial effluents, where s ulphate is converted via sulphide to sulphur in an anaerobic single-stage r eactor. Ethanol is used as carbon and energy source. Sulphate was removed f rom acid mine water over a period of 95 days from 3000 mg/l down to less th an 200 mg/l and the formed sulphides to less than 200 mg/l. The VSS value i n the reactor varied between 3 and 4 g/l, resulting in a specific sulphate removal rate from 0.47 to 2.47 g SO4/(g VSS.d), while the volumetric rate w as 2.5 and 8.4g SO4/(2.d) at HRT of 18 to 4.3 h. The experimental COD/sulph ate ratio was between 0.55 and 0.84, which is in accordance with the theore tical value of 0.87. The experimental sulphide/sulphate ratio was less than the theoretical value of 0.33 due to the conversion of sulphate to sulphur and due to metal sulphide precipitation. Iron and copper were removed comp letely and aluminium, manganese and zinc to less than 4 mg/l.