The purpose of this investigation is to prepare the porous activated carbon catalyst for pharmaceutical wastewater treatment with discarded coconut shells by using the copper sulfate or iron sulfate as the chemical activation agent. The influent factors on the COD removal of pharmaceutical wastewater in oxidation were considered by wastewater pH, dosage of H2O2 and reaction temperature. The active metal ions on catalysts strongly affect the pore properties and surface area of activated carbon. Superior performance of the FeAC catalyst activated by iron sulfate can be obtained with pharmaceutical wastewater at COD concentration of 3.000 mg/L. while the lower COD abatement efficiency was found in CuAC catalytic oxidation process. The efficiency of oxidation was mainly limited by the initial pH values of pharmaceutical wastewater, the oxidant concentration and reaction temperature. Increase of the oxidant dosage and the optimal pH and higher reaction temperature could increase the COD removal efficiency of pharmaceutical wastewater. It was concluded that metal type on the catalyst surface, the oxidant concentration, initial pH of pharmaceutical wastewater and reaction temperature played the important roles in the oxidation system.