Direct synthesis of dimethyl ether from biomass-derived syngas over Cu–ZnO–Al2O3–ZrO2(x)/γ-Al2O3 bifunctional catalysts: Effect of Zr-loading

IF 7.2 2区工程技术 Q1 CHEMISTRY, APPLIED

Fuel Processing Technology Pub Date : 2014-10-01 DOI:10.1016/j.fuproc.2014.04.021

Faen Song , Yisheng Tan , Hongjuan Xie , Qingde Zhang , Yizhuo Han

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引用次数: 43

Abstract

A series of Cu–ZnO–Al₂O₃–ZrO₂ catalysts with varying Zr contents was prepared as methanol synthesis catalyst by a co-precipitation method and characterized by inductively coupled plasma, N₂ physisorption, N₂O decomposition, H₂-temperature-programmed reduction, X-ray diffraction, and H₂/CO/CO₂-temperature-programmed desorption. Addition of a suitable amount of ZrO₂ to the Cu–ZnO–Al₂O₃ catalysts increased the Brunauer–Emmett–Teller surface areas and copper surface areas, and improved copper dispersion and reducibility of copper oxide. However, excessive addition of Zr resulted in larger Cu crystallite sizes after catalyst reduction. The Cu–ZnO–Al₂O₃–ZrO₂ catalysts were mixed physically with methanol dehydration γ-Al₂O₃ catalyst. The resulting catalysts were examined for the catalytic synthesis of dimethyl ether from biomass-derived syngas. Activity tests were conducted in a continuous flow-type fixed-bed reactor. The Cu–ZnO–Al₂O₃–ZrO₂/γ-Al₂O₃ bifunctional catalyst with 3 mol% Zr exhibited the best catalytic activity and stability. The well-dispersed copper particles with high reducibility and high Cu surface area in the bifunctional catalysts were responsible for the high catalytic performance.

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Cu-ZnO-Al2O3-ZrO2 (x)/γ-Al2O3双功能催化剂催化生物质合成气直接合成二甲醚:zr负载的影响

采用共沉淀法制备了一系列不同Zr含量的Cu-ZnO-Al2O3-ZrO2催化剂作为甲醇合成催化剂，并对其进行了电感耦合等离子体、N2物理吸附、N2O分解、H2-程序化还原、x射线衍射和H2/CO/ co2 -程序化解吸等表征。在Cu-ZnO-Al2O3催化剂中加入适量的ZrO2，增加了铜的brunauer - emmet - teller表面积和铜的表面积，改善了铜的分散性和氧化铜的还原性。而过量添加Zr会导致催化剂还原后Cu晶粒尺寸增大。将Cu-ZnO-Al2O3-ZrO2催化剂与甲醇脱水型γ-Al2O3催化剂物理混合。对所得催化剂进行了生物质合成气催化合成二甲醚的实验研究。在连续流型固定床反应器中进行了活性试验。Zr为3 mol%的Cu-ZnO-Al2O3-ZrO2 /γ-Al2O3双功能催化剂表现出最好的催化活性和稳定性。双功能催化剂中分散性好、还原性强、铜比表面积大的铜颗粒是高催化性能的主要原因。

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来源期刊

Fuel Processing Technology 工程技术-工程：化工

CiteScore

13.20

自引率

9.30%

发文量

398

审稿时长

26 days

期刊介绍： Fuel Processing Technology (FPT) deals with the scientific and technological aspects of converting fossil and renewable resources to clean fuels, value-added chemicals, fuel-related advanced carbon materials and by-products. In addition to the traditional non-nuclear fossil fuels, biomass and wastes, papers on the integration of renewables such as solar and wind energy and energy storage into the fuel processing processes, as well as papers on the production and conversion of non-carbon-containing fuels such as hydrogen and ammonia, are also welcome. While chemical conversion is emphasized, papers on advanced physical conversion processes are also considered for publication in FPT. Papers on the fundamental aspects of fuel structure and properties will also be considered.