Hydrogenation of CO2 on Co–Ni Catalysts Produced by Low-Temperature Combustion Using Modified Silica Fabric

IF 0.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Self-Propagating High-Temperature Synthesis Pub Date : 2024-01-18 DOI:10.3103/S1061386223040131
V. N. Borshch, I. M. Bystrova, E. V. Pugacheva, N. Yu. Khomenko
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Abstract

Co–Ni supported catalysts were prepared by low-temperature combustion of dried mixture of solutions of cobalt and nickel nitrates and urea after impregnation of silica fabric (>97% SiO2) premodified with 5, 10, and 15 wt % Al2O3. Modification of support was carried out by low-temperature combustion of dried mixture of solutions of aluminum nitrate and urea. Prepared supports and related catalysts were characterized by XRD, SEM, EDS, and BET method. The unreduced catalysts were found to contain oxides and complex oxides of nickel and cobalt. Reduction of catalysts with hydrogen at 400°C for 1 h was shown to contribute to forming metallic phases of Co and Ni; however, the nickel phase was detected only in reduced catalyst on unmodified fabric. The catalytic activity of catalysts was determined in the temperature range of 150–400°С. It was found that the reduced catalyst on support modified with 5 wt % Al2O3 possesses the highest CO2 conversion (61.8%) and methane yield (3.61 vol %) at 400°С.

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使用改性二氧化硅织物低温燃烧制备的 Co-Ni 催化剂上的 CO2 加氢反应
摘要 在浸渍预先用 5、10 和 15 wt % Al2O3 改性过的二氧化硅织物(SiO2 含量为 97%)之后,通过低温燃烧硝酸钾和尿素的干燥混合物,制备了钴镍支撑催化剂。通过低温燃烧硝酸铝和尿素的干燥混合物溶液来对支撑物进行改性。用 XRD、SEM、EDS 和 BET 法对制备的支撑物和相关催化剂进行了表征。发现未还原的催化剂含有镍和钴的氧化物和复合氧化物。在 400°C 下用氢气还原催化剂 1 小时,结果表明这有助于形成钴和镍的金属相;然而,只有在未改性织物上的还原催化剂中才检测到镍相。在 150-400°С 的温度范围内测定了催化剂的催化活性。结果发现,在 400°С 时,用 5 wt % Al2O3 改性的载体上的还原催化剂具有最高的二氧化碳转化率(61.8%)和甲烷产率(3.61 vol %)。
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来源期刊
CiteScore
1.00
自引率
33.30%
发文量
27
期刊介绍: International Journal of Self-Propagating High-Temperature Synthesis  is an international journal covering a wide range of topics concerned with self-propagating high-temperature synthesis (SHS), the process for the production of advanced materials based on solid-state combustion utilizing internally generated chemical energy. Subjects range from the fundamentals of SHS processes, chemistry and technology of SHS products and advanced materials to problems concerned with related fields, such as the kinetics and thermodynamics of high-temperature chemical reactions, combustion theory, macroscopic kinetics of nonisothermic processes, etc. The journal is intended to provide a wide-ranging exchange of research results and a better understanding of developmental and innovative trends in SHS science and applications.
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