<p>The electrolytic approach was combined with radiolysis employing gamma radiation as an enhanced oxidation process to study the decomposition of 1-(4-Hydroxy-3-Methoxyphenyl) ethenone (Apocynin (ACN)). For Apocynin breakdown from effluent water, a photo-catalytic membrane reactor (PMR) was utilized with suspended and immobilised Sr-LaNiO3 with regarding to gamma irradiation. For phase procedures, the impacts of basic Sr-LaNiO3 on the PMR containing residual Sr-LaNiO3 was investigated. An RO (Reverse Osmosis) membrane was integrated by way of the PMR under continuous circumstances to improve standard of water. At such a moderate Sr-LaNiO3 dosage (0.8 g/L), ACN deterioration by the PMR with attached and immobilised Pt-LaNiO3 was similar in both methods, but improved with larger Sr-LaNiO3 doses for the reactor with coupled Pt-LaNiO3.</p>