期刊
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
卷 60, 期 51, 页码 18853-18869出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.iecr.1c03046
关键词
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资金
- Ministry of Science, Innovation and Universities [CTQ2016-76505-C3-1, PID2019-111219RB-100]
- Autonomous Community of Madrid (CAM) [P2018/EMT-4344]
- Spanish Ministry of Science, Innovation and Universities
Different mixing methods can optimize the contact and interaction between methanol synthesis catalyst and methanol dehydration catalyst, leading to better catalytic performance.
We studied different preparation methods to synthesize a series of bifunctional hybrid catalytic systems for the direct synthesis of DME from syngas. The objective was to optimize the contact and interaction between the methanol synthesis catalyst and the methanol dehydration catalyst (Cu/ZnO/Al2O3 and H3PW12O40 supported on TiO2, respectively) by using different mixing methods (simple mixing, mixing-milling, suspension, and mixing-pressing). It has been found that the close contact between methanol synthesis and acidic functions is highly dependent on the degree of mixing of the two catalysts. In this respect, the hybrid catalyst prepared by mixing-pressing, which represents the closest contact, shows the strongest alterations in both catalytic functions. These modifications are associated with a decrease in copper surface area and a decrease in strong acid sites caused by the physical blocking of active sites or by cation exchange of the Cu2+/Zn2+ species from Cu-ZnO(Al) and the H+ from the H3PW12O40 units. The activity results demonstrated that the mixing-pressing method leading to a closer contact between the two catalytic functions led to a very low dimethyl ether time yield compared to the other bifunctional catalysts prepared by less severe mixing methods (19.4 vs 205-335 mu mol/min.g(cat)). This work clearly indicates the importance of the mixing method in the synthesis of the hybrid catalyst to optimize the distance and interaction between the metal and acid sites.
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