期刊
JOURNAL OF CO2 UTILIZATION
卷 75, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.jcou.2023.102573
关键词
Nickel-zinc alloy; ZnO-ZrO2; Dry reforming of methane (DRM); Deactivation; CO 2 utilization
By doping a Ni-supported ZrO2 catalyst with Zn, researchers found that the performance and stability of dry reforming of methane can be enhanced. The catalyst with adjusted Ni:Zn:Zr proportion showed higher initial activity and stability, as well as improved adsorption and reaction rates for CH4 and CO2.
Stimulated by the capacity of Zn to improve the adoption of CO2 and CH4, we doped a Ni-supported ZrO2 catalyst with Zn to enhance its performance and stability in the dry reforming of methane. We prepared a set of catalysts with different Ni:Zn:Zr proportions and conducted extensive ex situ and in situ characterizations to prove that a Ni-Zn alloy was formed at 750 degrees C under reductive conditions. Combining a tailored morphology of the alloy nanoparticles, strong metal-support (ZnO-ZrO2) interactions, and additional oxygen vacancies created by Zn inclusion resulted in an enhanced catalyst with 15% higher initial activity and higher stability for over 100 h on stream than Zn-free catalyst. Our experimental and modeling results demonstrated that the catalyst with adjusted Ni:Zn:Zr proportion improves the adsorption and reaction rates of CH4 and CO2 while extending its lifetime through enhanced coke precursor gasification compared to its Zn-free counterpart.
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