Energy efficient biohydrogen production from waste activated sludge through a novel phase separated pretreatment

Abstract

Disintegration of sludge by microwave irradiation is considered an energy-intensive pretreatment as it demands more significant energy input to achieve the desirable solubilization. Extracellular polymeric substance (EPS) present in the floc matrix of sludge limits the extent of sludge solubilization. Hence, this study attempted to disrupt the EPS with potassium peroxymonosulphate (PPMS) before microwave (MW) pretreatment to attain maximal solubilization in an energy-efficient way. A maximal EPS disruption was achieved at 0.009 g/g TS of PPMS dosage and treatment time of 36 min. The outcome of the phase-separated pretreatment shows that PPMS induced MW pretreatment (PPMS-MW) obtained a maximum chemical oxygen demand (COD) solubilization of 35.67 % at a specific energy input of 8795 kJ/kg TS. In contrast, the MW pretreatment achieved only 22.41 % at a specific energy input of 21973 kJ/kg TS. When comparing both PPMS-MW and MW pretreatments, an ample amount of energy was saved by PPMS-MW than MW. The biohydrogen production potential assay showed that PPMS-MW obtained an increased biohydrogen production of 79.76 mL/g VS compared to MW (50.10 mL/g VS). Thus, this phase-separated PPMS-MW pretreatment was considered efficient compared to MW pretreatment.