Buffering capacity in an anaerobic baffled reactor treating carbohydrate-protein wastewater

A 10-L working volume of an anaerobic baffled reactor (ABR) with three, six and eight compartments using an organic loading rate of 4 g COD/l-d (named as 3C-OLR4, 6C-OLR4, and 8C-OLR4 experiments, respectively) was used. COD removal efficiencies of 74%, 78% and 83% were accomplished, respectively. The effluent pH and alkalinity values were maintained around 7.9 and 2000 mg/l as CaCO3, respectively, and the effluent VFA concentrations were mostly less than 500 mg/l as CaCO3. This resulted in a low VFA/alkalinity ratio (less than 0.4), which indicated that the system had a high buffering capacity with only 2000 mg/l as CaCC3 alkalinity concentration. Subsequently, the eight-compartment ABR was selected to further investigate the effect of organic loading rates (OLRs) of 8,12,16 g COD/l-d (8C-OLR8, 8C-OLR12, 8C-OLR16). The same influent alkalinity (2000 mg/l) was applied to these three OLRs. The effluent pH values of those remained in the range of 8.1-8.5 and the effluent alkalinity concentrations were around 2500 mg/l as CaCO3. This signifies that the alkalinity requirement in the ABR treating carbohydrate-protein wastewater would be reduced, resulting in chemical cost reduction.