A NOVEL CATALYST FOR REDUCTIVE DECHLORINATION OF CHLOROBENZENE IN SUBCRITICAL WATER: BIFUNCTIONAL Fe/ZrO2

Abstract

Bifunctional Fe / ZrO 2 was prepared by mechanical mixing method, and its bifunctional effect on reductive dechlorination of chlorobenzene in subcritical water was studied. Dechlorination efficiency increased with increasing iron content in catalyst and catalyst amount. Dechlorination efficiency slowed when the iron content in catalyst reached 30%; bifunctional catalyst of Fe / ZrO 2 was more efficient in dechlorination of chlorobenzene than Fe alone. Catalyst of Fe (30%)/ ZrO 2 was characterized by means of X-ray diffraction (XRD), H 2 temperature programmed desorption ( H 2-TPD), and N 2 adsorption. The possible mechanism of dechlorination in subcritical water by this bifunctional catalyst was proposed. H + produced in the water dissociation formed the highly reactive spillover hydrogen on the surface of catalyst, and then reacted with chlorobenzene adsorbed on the catalyst surface by ZrO 2 to form benzene and chloride ions.