This study investigated electrooxidation (EO) pretreatment for sludge dewatering wastewater and condensate generated during the process, aiming to enhance its treatment via a membrane bioreactor (MBR) and prevent membrane fouling. EO treatment could achieve a complete suspended solids (SS) removal along with 97.4% EPS and 90.1% colour removal under the optimum conditions. However, the NH4+-N and total organic carbon (TOC) concentration in wastewater increased (16% and 72.8%, respectively) due to break down of the complex organic substances present in the wastewater. MBR treating EO pretreated wastewater showed significant improvement against membrane fouling, as shown by reduction in transmembrane pressure (TMP) from 15 kPa in control to 0 kPa in the experimental reactor. The MBR operated with EO-treated wastewater and a 16-day HRT resulted in a low effluent NH4+-N concentrations of 469.3mg/L (74.9% removal) along with a very low TOC concentration of 24.3mg/L (98.7% removal). The microbial community analysis revealed that enrichment of selected organic carbon degraders (Defluviitoga, Pedobacter, and Flavobacteriaceae) and nitrogen cycle bacteria (Dechloromonas, Comamonas, Arenibacter, Brevundimonas, Thauera, and Aequorivita), including some aerobic denitrifiers (Aquamicrobium and Chryseobacterium) in the experimental reactor treating EO-pretreated wastewater is responsible for enhancing microbial degradation and its overall performance.