The treatment of effluent with diversified membrane technology related processes is not satisfying due to its own disadvantages and as a result the standard limits prescribed could not be met. This research work mainly focuses on the elimination of impediments associated with membrane bioreactors (MBRs). The irreversible fouling was found to greatly reduce by the addition of electrochemical pre-treatment processes with MBR. Chemical Oxygen Demand (COD) and Total Dissolved Solids (TDS) are the majorly considered water parameters and they are evaluated in the case of integrated electro-fenton membrane bioreactor (EFMBR), which is a hybrid technology comprising of electro-fenton pretreatment process with ozonation and MBR technology. This is proved to be highly effective with an excellent reduction percentage of 92 % COD and 50 % TDS respectively. Gas chromatography (GC) analysis of the pharmaceutical effluent upon treatment in EFMBR justified the quantitative reduction of pharmaceutical compounds. The results obtained on experimentation of EFMBR clearly indicated that there is a little internal and external fouling which is significantly proved through Hermia modelling and Scanning Electron Microscopy (SEM) analysis. The most eminent result obtained in this study were the efficacy of EFMBR to operate without the issue of filamentous bulking and it supported that electro-fenton could have played the major role for the achievement of eradicating fouling in EFMBR. The results obtained from this process gives an insight to researchers to overcome the irreversible fouling in industrial and municipal water treatment. The outcome of this study shows the insightful way employing this technology in water treatment industries could highly reduce the environmental problems.