Desulfurization performance of iron supported on activated carbon

Abstract

Fe catalysts supported on activated carbon untreated and treated by HNO3 were prepared by an ultrasound-assisted incipient wetness method and characterized using N2 adsorption/desorption, scanning electron microscopic (SEM), X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS). Desulfurization activity was evaluated at a fixed bed reactor under a simulated flue gas. The results showed that the SO2 adsorption capacity of AC is 74mg/g; when Fe is loaded on activated carbon untreated by HNO3, SO2 adsorption capacity increases to 244mg/g; and when Fe is loaded on activated carbon treated by HNO3, SO2 adsorption capacity increases to 322mg/g. Fe3O4 species exists on the surface of fresh catalysts, but after desulfurization, Fe2(SO4)3 is detected, indicating that Fe species could react with generated H2SO4 in the desulfurization process and may be the main reason of the deactivation of Fe catalysts supported on activated carbon.