淡江大學機構典藏:Item 987654321/127389
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    題名: Preparation and characterization of CuO-Al2O3 catalyst for dimethyl ether production via methanol dehydration
    作者: Lin, Chao-Lung Chiang;Kuen-Song
    關鍵詞: Carbon Dioxide;CuO-Al2O3;Dimethyl Ether;Methanol Dehydration;XANES/EXAFS
    日期: 2017/2/6
    上傳時間: 2025-06-03 12:05:22 (UTC+8)
    出版者: Pergamon
    摘要: In the present study, a CuOsingle bondAl2O3 catalyst with CuAl2O4 spinel structure was prepared by a co-precipitation method and used for dimethyl ether (DME) production via methanol dehydration at 50 bar and different reaction temperatures (150, 250, and 350 °C). Upon XPS analysis of the copper and aluminum species in the fresh and used CuOsingle bondAl2O3 catalyst, CuAl2O4 was found to be the dominant species with more than 50% of total composition. Three reductive reactions and temperatures for the formation of CuH (102.3 °C), the interaction between Cu2+ and Al atoms (356.6 °C), and the reduction of CuO (520.1 °C) were analyzed by H2-TPR. Furthermore, the copper oxidation state in the fresh and used catalyst was Cu(II), as determined by the XANES spectra. The fine structural parameters revealed that the coordination number of Cu changed from 2.75 to 2.44 during the catalytic reaction, and that the Cusingle bondO bond distance increased from 1.94 to 1.98 Å due to strengthened Cu2+single bondAl interactions. On-line FTIR spectra revealed that the optimum temperature for the formations of HCOOH (by-product) and DME (product) were 150 and 250 °C, respectively. The catalytic reactions in the duration of DME synthesis were found that included methanol decomposition, methanol/formic acid formations, and methanol dehydration occurring at CuO, Cu, and Al2O3/CuAl2O4 active sites, respectively. The highest methanol conversion (67.3%) and DME yield (40.6%) were obtained at 250 °C and 50 bar, as demonstrated by the catalyst performance. In addition, optimum DME formation (equilibrium constant 1.76 × 10−2 L mol−1 h−1 and activation energy 5.14 kJ mol−1) occurred at 250 °C, as determined from the linear regression of the second order model with a high R2 value (0.98). The exothermal and non-spontaneous nature of DME formation at high temperature was evaluated through thermodynamic calculations of the reaction enthalpy, entropy, and Gibbs energy.
    關聯: International Journal of Hydrogen Energy 42(37),p. 23526-23538
    DOI: 10.1016/j.ijhydene.2017.01.063
    顯示於類別:[化學工程與材料工程學系暨研究所] 期刊論文

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