Abstract:
The conventional chemical used in the neutralisation of biooxidation effluents is lime. The search for cheaper and readily
available alternative reagents has been the motivation for a number of researches. This paper considered the characterisation
and utilisation of Waste Manganese Carbonate (WMC) (waste-bearing manganese carbonate material) from Ghana
Manganese Company in Ghana as a neutralising agent for biooxidation effluents. The WMC is composed of manganese
carbonate (76.6%), dolomite (7.1%), muscovite (8.5%), quartz (6.5%), todorokite (0.3%) and the amorphous content was
1.0%. The elemental Mn content was approximately 28.26%. The Bond Index was 13.52 kWh/t, and the particle size
distribution gave D50 as 5.89 μm. The isoelectric point (iep) of the WMC dispersed in MilliQ water occurred at ~pH 8.5, and
the powder specific surface area measured was 6.12 m2/g. WMC was used to neutralise biooxidation effluent with arsenic
concentration of 1276 mg/L at pH 1.85 and 27 oC and it was able to deprotonate the effluent from pH 1.85 to 5.5 in 120 min
depending on solid loading. Arsenic sequestration increased with increasing WMC concentration with residual arsenic
concentration in solution ranging between 0.78 and 1.11 mg/L at pH 7.0. Surface area of the WMC precipitates was 12.62
m2/g and the corresponding D50 values at pH 4.5 and 7.0 were respectively 5.89 μm and 10.35 μm. Mobile arsenic extracted
from the precipitates averaged 4.135 mg/L at pH 7.0 and 1.594 mg/L at pH 7.4 as against the EPA maximum allowable
concentration of 5.0 mg/L.