Highly efficient catalytic removal of ethyl acetate over Ce/Zr promoted copper/ZSM-5 catalysts

Abstract A series of CuCe x Zr 1− x O y /ZSM-5 ( x  = 0, 0.25, 0.5, 0.75 and 1) catalysts with different Ce/Zr molar ratios were prepared by impregnation. The catalyst performances were tested for volatile organic compounds (VOCs) abatement in the fixed-bed reactor. Extensive characterizations, N 2 adsorption/desorption, X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), temperature-programmed reduction by hydrogen (H 2 -TPR), were undertaken in order to correlate the morphological, structural and surface properties of CuCe x Zr 1− x O y /ZSM-5 catalysts with their oxidation activities. The results showed that the CuO, CeO 2 , and ZrO 2 species were highly dispersed on the surfaces of ZSM-5 support, and copper is mostly in Cu 2+ state and Cu + co-existed as well. Surface adsorbed oxygen, hydroxyl group, and oxygen vacancies were detected after the introduction of Ce and/or Zr, which increased with the increasing of Ce/Zr molar ratio. The specific surface area was not the key factor governing the catalytic activity, however, the remarkable relationship between reducibility and catalyst activity were observed. The excellent reducibility of the catalyst would lead to an improvement in catalytic performance. The optimum performance was obtained with CuCe 0.75 Zr 0.25 /Z catalyst, which offered complete conversion of ethyl acetate into CO 2 at temperature as low as 270 °C, the onset temperature was 110 °C. Furthermore, this catalyst possessed superior stability, and no deactivation phenomenon was observed during the catalytic oxidation for 60 h at 270 °C.