Enhanced dewatering characteristics of waste activated sludge with Fenton pretreatment: Effectiveness and statistical optimization

In this work, the enhanced dewaterabing characteristics of waste activated sludge using Fenton pretreatment was investigated in terms of effectiveness and statistical optimization. Response surface method (RSM) and central composite design (CCD) were applied to evaluate and optimize the effectiveness of important operational parameters, i.e., H₂O₂ concentrations, Fe²⁺ concentrations and initial pH values. A significant quadratic polynomial model was obtained (R ²= 0.9189) with capillary suction time (CST) reduction efficiency as the response. Numerical optimization based on desirability function was carried out. The optimum values for H₂O₂, Fe²⁺, and initial pH were found to be 178 mg·g^-1 VSS (volatile suspended solids), 211 mg·g^-1 VSS and 3.8, respectively, at which CST reduction efficiency of 98.25% could be achieved. This complied well with those predicted by the established polynomial model. The results indicate that Fenton pretreatment is an effective technique for advanced waste activated sludge dewatering. The enhancement of sludge dewaterability by Fenton's reagent lies in the migration of sludge bound water due to the disintegration of sludge flocs and microbial cells lysis.