2 research outputs found
Lead biosorption onto waste beer yeast by-product, a means to decontaminate effluent generated from battery manufacturing industry
This paper projects the potential of waste beer yeast Saccharomyces
cerevisiae in biosorbing lead from battery manufacturing industrial
effluent. Experiments were carried out as a function of pH, biosorbent
concentration, lead concentration and agitation speed. Specific lead
uptake of 2.34 mg/g was recorded and the data gave good fits for
Freundlich and Langmuir models with Kf and Qmax values of 0.5149 and
55.71 mg/g. The roles played by amines, carboxylic acids, phosphates,
sulfhydryl group and lipids in lead biosorption were studied.
Electrostatic attraction may be the mechanism of biosorption. The
extent of contribution of the functional groups and lipids to lead
biosorption was in the order: carboxylic acids > lipids > amines
> phosphates. Blocking of sulfhydryl group did not have any
significant effect on lead uptake
Lead biosorption onto waste beer yeast by-product, a means to decontaminate effluent generated from battery manufacturing industry
This paper projects the potential of waste beer yeast Saccharomyces
cerevisiae in biosorbing lead from battery manufacturing industrial
effluent. Experiments were carried out as a function of pH, biosorbent
concentration, lead concentration and agitation speed. Specific lead
uptake of 2.34 mg/g was recorded and the data gave good fits for
Freundlich and Langmuir models with Kf and Qmax values of 0.5149 and
55.71 mg/g. The roles played by amines, carboxylic acids, phosphates,
sulfhydryl group and lipids in lead biosorption were studied.
Electrostatic attraction may be the mechanism of biosorption. The
extent of contribution of the functional groups and lipids to lead
biosorption was in the order: carboxylic acids > lipids > amines
> phosphates. Blocking of sulfhydryl group did not have any
significant effect on lead uptake