Removal of organic matters and dyes from aqueous solutions and effluent of a hybrid airlift A2O bioreactor treating milk processing wastewater using chemically derived bituminous-based activated carbons

Abstract

The synthesis of chemically derived bituminous-based activated carbons (ACs) was conducted in this research. The study examined the efficacy of the KOH-2 modified AC by conducting batch experiments under different operating settings. Pollutant concentration, adsorbent dosage and contact time were considered as variables. Bovine serum albumin (BSA), dextrose, and methylene blue (MB) were used as model substances to represent protein, carbon, and textile dyes, respectively. Under optimal conditions, the activated carbon modified with a 2:1 impregnation ratio using KOH showed the best performance among two other ACs, therefore, that was introduced as chosen AC. The optimal parameters were determined as pollutant concentration, adsorbent dosage and contact time obtained to be 600 mg/L, 0.22 g/L and 220 min; 200 mg/L, 0.6 g/L and 180 min; 200 mg/L, 1 g/L and 196 min for MB, BSA and dextrose, respectively. This AC obtained the highest adsorption capacity of 2710.6, 283, and 273 mg/g adsorbing MB, BSA and dextrose, respectively. In the following, column studies were conducted using biologically treated wastewater obtained from a new one-stage hybrid internal circulation airlift A2O bioreactor to eliminate soluble microbial products (SMP). It was seen that the adsorption column, which was filled with the AC under optimal experimental conditions (bed height of 4.5 cm and solution flow rate of 5 mL/min), resulted in a decrease in residual organic substances from 35 mg-TOC/L to 6.6 mg-TOC/L. It is worth mentioning that the utilization of an integrated approach involving sophisticated biological treatment and post-treatment technology has demonstrated efficacy in the elimination of residual organic substances.