Sulphate reducing bacteria (SRB) offer promise for the treatment of mine waste due to their effectiveness removing toxic heavy metals as highly insoluble metal sulphides and their ability to generate alkalinity. The main objective of this study was to develop a treatment composed of a sulphate-reducing bioreactor with a limestone precolumn for the removal of Cu(II) from a synthetic ARD. The purpose of the limestone column was to increase the pH values and decrease the level of Cu in the effluent to prevent SRB inhibition. The system was fed with a pH-2.7 synthetic ARD containing Cu(II) (10–40 mg/L), sulphate (2000 mg/L) and acetate (2.5 g COD/L) for 150 days. Copper removal efficiencies in the two-stage system were very high (95–99%), with ...
Research was conducted to evaluate methods for the biological treatment of acid mine drainage (AMD)....
ABSTRACT The key purpose of this research was to explore the capacity of an anaerobic stirred batch ...
grantor: University of TorontoAcid mine drainage (AMD) contains high concentrations of hea...
Biological treatment using sulfate-reducing bacteria (SRB) is a promising approach to remediate acid...
One of the most important problems affecting mining companies around the world is the treatment of a...
Dissimilatory sulphate reduction, brought about by the action of sulphate reducing bacteria (SRB) wa...
Acid mine drainage (AMD) causes several environmental problems in many countries. The use of biologi...
Toxic heavy metals and metalloids constitute an international pollution problem that not only impact...
Industrial activities and the natural oxidation of metallic sulfide-ores produce sulfate-rich waters...
Industrial activities and the natural oxidation of metallic sulfide-ores produce sulfate-rich waters...
Mining contributes to water pollution through the generation and uncontrolled release of sulfuric ac...
Bioreactors utilising bacterially mediated sulphate reduction (BSR) have been widely tested for trea...
Abstract The aim of this study was to develop a biological method for the simultaneous removal of s...
Mining waste rocks containing sulfide minerals naturally provide the habitat for iron- and sulfur-ox...
Treatment of acid mine drainage (AMD) highly rich in sulfate and multiple metal elements has been in...
Research was conducted to evaluate methods for the biological treatment of acid mine drainage (AMD)....
ABSTRACT The key purpose of this research was to explore the capacity of an anaerobic stirred batch ...
grantor: University of TorontoAcid mine drainage (AMD) contains high concentrations of hea...
Biological treatment using sulfate-reducing bacteria (SRB) is a promising approach to remediate acid...
One of the most important problems affecting mining companies around the world is the treatment of a...
Dissimilatory sulphate reduction, brought about by the action of sulphate reducing bacteria (SRB) wa...
Acid mine drainage (AMD) causes several environmental problems in many countries. The use of biologi...
Toxic heavy metals and metalloids constitute an international pollution problem that not only impact...
Industrial activities and the natural oxidation of metallic sulfide-ores produce sulfate-rich waters...
Industrial activities and the natural oxidation of metallic sulfide-ores produce sulfate-rich waters...
Mining contributes to water pollution through the generation and uncontrolled release of sulfuric ac...
Bioreactors utilising bacterially mediated sulphate reduction (BSR) have been widely tested for trea...
Abstract The aim of this study was to develop a biological method for the simultaneous removal of s...
Mining waste rocks containing sulfide minerals naturally provide the habitat for iron- and sulfur-ox...
Treatment of acid mine drainage (AMD) highly rich in sulfate and multiple metal elements has been in...
Research was conducted to evaluate methods for the biological treatment of acid mine drainage (AMD)....
ABSTRACT The key purpose of this research was to explore the capacity of an anaerobic stirred batch ...
grantor: University of TorontoAcid mine drainage (AMD) contains high concentrations of hea...