Seyedeh Elahe Badiei Khairabadi - Department of Environmental Health Engineering, Faculty of Health, Kashan University of Medical Science, Kashan, Isfahan, Iran
Hasan Rahmani - Department of Environmental Health Engineering, Faculty of Health, Kashan University of Medical Science, Kashan, Isfahan, Iran
Mohammad Bagher Miranzadeh - Department of Environmental Health Engineering, Faculty of Health, Kashan University of Medical Science, Kashan, Isfahan, Iran
Rouhullah Dehghani - Department of Environmental Health Engineering, Faculty of Health, Kashan University of Medical Science, Kashan, Isfahan, Iran
Fatemeh Atoof - Department of Biostatistics, Faculty of Health, Kashan University of Medical Science, Kashan, Isfahan, Iran

In this study, the decomposition of BTA was examined using a photocatalytic process (UV/Fe۲O۳@Alg-TiO۲). The effects of various operational parameters such as the initial pH(۳-۷-۱۰), catalyst dosage (۰.۰۵, ۰.۱, ۰.۱۵ g/L), BTA initial concentration (۱۵–۴۵ mg/L), UV intensity ( ۲, ۴, and ۶ watts), and detention time (۱۵,۳۰, and ۴۵ minutes) on the decomposition of BTA in the reactor with Batch conditions and in deionized water, real wastewater (three different matrices saline water, and real raw wastewater after activated sludge and after stabilization ponds) were investigated. SEM, XRD, and FTIR determined the synthesized catalyst's specifications. The results showed that ۷۳.۵% of BTA and ۳۰% TOC was removed during the UV/Fe۲O۳@Alg-TiO۲ photocatalytic process at the optimal condition (BTA=۳۰ mg/L, pH = ۳, UV = ۴ Watt and catalyst dosage = ۰.۱۵ g/L) in deionized water. Also, the efficiency of the process in removing contaminants from the Saline, real raw sewage after activated, and after activated sludge and stabilization ponds was ۲۳%, ۴۷%, and ۵۱%, respectively. The results showed that the toxicity decreased in ۲۰۰ minutes that if sufficient time is provided to complete the reaction toxicity can be reduced. The results related to the amount of electrical energy consumed showed that considering both the advantages of BTA removal efficiency and energy consumption, the best performance was obtained in optimum conditions.

Benzotriazole, cross-linked alginate polymer, Fe۲O۳ nanoparticles, Photocatalytic process, Titanium dioxide Nanoparticles