期刊
CATALYSIS TODAY
卷 242, 期 -, 页码 255-260出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.cattod.2014.04.032
关键词
CO2 hydrogenation; C2+ hydrocarbons; Methanol synthesis; MTG reaction; Composite catalyst; Two-stage reactor system
资金
- Advanced Low Carbon Technology Research and Development Program from the Japan Science and Technology Agency (JST-ALCA)
The combination of methanol synthesis and methanol-to-gasoline (MTG) reaction is a beneficial process to produce particular C2+ hydrocarbons from CO2 and H-2, because MTG reaction can produce C2+ hydrocarbons selectively without the formation of methane. However, the composite catalysts consisting of methanol synthesis catalyst and zeolite previously reported have produced C2+ hydrocarbons in poor yields especially under low pressure conditions. This paper reports the high yield production of C2+ hydrocarbons by CO2 hydrogenation using a two-stage reaction system consisting of a Cu-Zn-Al oxide catalyst in the first reactor and a composite catalyst of the Cu-Zn-Al oxide and HB (zeolite beta) in the second reactor. The key points of this system are reversed water-gas-shift (RWGS) reaction in the first reactor and the following H2O removal before the second reactor. The gas mixture supplied to the second reactor containing much amount of CO and little H2O enhanced the methanol synthesis and suppressed the methanol decomposition to CO over the Cu-Zn-Al oxide catalyst in the composite catalyst, promoting the MTG reaction to produce C2+ hydrocarbons over HB zeolite. The highest yield of C2+ hydrocarbons reached to approximately 15 C-mol% under 0.98 MPa. (C) 2014 Elsevier B.V. All rights reserved.
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