Mohammad Rostamizadeh - Faculty of Chemical Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran. | Research Center of Environmental Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran.
Soorena Gharibian - Faculty of Chemical Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran. | Research Center of Environmental Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran.
Samira Rahimi - Faculty of Chemical Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran. | Research Center of Environmental Engineering, Sahand University of Technology, Sahand New Town, Tabriz, Iran.

Pharmaceutical wastewaters have several negative effects on human health. This study reports heterogeneous and ultrasound assisted electro Fenton (HSEF) for efficient degradation of Phenazopyridine (PHP). The high silica zeolite socony mobil–5 (ZSM-5) nanocatalyst is synthesized by hydrothermal technique and impregnated with iron species (0.1Fe-ZSM-5). The surface and textural properties of the synthesized nanocatalyst were characterized by X-ray Diffraction (XRD), Transmission electron Microscopy (TEM) and N2 adsorption-desorption techniques. The nanocatalyst includes the high crystallinity (ca. 72.41 %), surface area (ca. 294.40 m2g-1) and uniform dispersion of Fe species. The optimum operating conditions of the HSEF system are pH= 7, applied current of 100 mA, 0.1Fe-ZSM-5 nanocatalyst concentration of 0.2 gL-1 and ultrasonic power of 600 WL-1 which result in the highest PHP removal efficiency. The high performance of the developed nanocatalyst in three consecutive runs confirms the reusability of the nanocatalyst. The results show that the HSEF system has a high capacity for the efficient removal of PHP without requiring long reaction time, high applied current and strict acidic conditions which candidates it for the industrial applications.

Electro Fenton, Ultrasound, heterogeneous, Zeolite nanocatalyst, Phenazopyridine