Aqueous-phase reforming of ethylene glycol on Co/ZnO catalysts prepared by the coprecipitation method
2011
Chu, Xianwen | Liu, Jun | Sun, Bo | Dai, Rui | Pei, Yan | Qiao, Minghua | Fan, Kangnian
Co/ZnO catalysts with different Co/Zn ratios have been prepared by the coprecipitation method. It is revealed that below the nominal Co/Zn molar ratio of 2, the calcined Co/ZnO samples were constituted by ZnO and ZnCo₂O₄ spinel. At the nominal Co/Zn ratio of 2, a small amount of Co₃O₄ spinel emerged. After reduction, the catalysts were composed of fcc Co and ZnO. In aqueous-phase reforming (APR) of ethylene glycol, it is found that the intrinsic activity and selectivity to H₂ increase with the increment of the ZnO content. H₂ selectivities over the Co/ZnO catalysts ranged from 52% to 89%, which are substantially higher than that of the Raney Ni catalyst at similar conversion. Moreover, the Co/ZnO catalysts produced much less CO in the product gas. With the aid of literature works as well as additional experiments on APR of acetic acid, methanol, and ethanol, the reaction pathways of ethylene glycol in the presence of water on the Co/ZnO catalysts were discussed.
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