| Issue |
Korean Journal of Chemical Engineering,
Vol.14, No.6, 441-444, 1997
Vol.14, No.6, 441-444, 1997
Ultra-Rapid Synthesis of Syngas by the Catalytic Reforming of Methane Enhanced by In-situ Heat Supply Through Combustion
Development in highly active catalysts for the reforming of methane with CO2 and partial oxidation of methane was conducted to produce hydrogen and carbon monoxide with high reaction rates. An Ni-based four-components catalyst, Ni-Ce2O3-Pt-Rh, supported on an alumina wash-coated ceramic fiber in a plate shape was suitable for the objective reaction. By combining the catalytic combustion of ethane or propane, methane conversion was markedly enhanced, and a high space-time yield of syngas, 25,000 mol/l·h was obtained at a catalyst temperature of 700℃ or furnace temperature of 500℃. The extraordinary high space-time yield of syngas was also confirmed even under the very rapid flow rate conditions as a contact time of 3 m-sec by using a monolithic shape of catalyst bed without back pressure.
Keywords:
Ni-based Catalyst; Methane Reforming; Milli-second Reaction; Catalytic Combustion; On-site Heat Supply
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- Kim SB, Shin KS, Park ES, Kwak YC, Cheon HJ, Hahm HS, HWAHAK KONGHAK, 41(1), 20, 2003
- Liu ZW, Roh HS, Jun KW, Journal of Industrial and Engineering Chemistry, 9(6), 753, 2003
- Kong SJ, Jun JH, Yoon KJ, Korean Journal of Chemical Engineering, 21(4), 793, 2004
- Kim SS, Kim J, Lee H, Na BK, Song HK, Korean Journal of Chemical Engineering, 22(4), 585, 2005
- Promaros E, Assabumrungrat S, Laosiripojana N, Praserthdam P, Tagawa T, Goto S, Korean Journal of Chemical Engineering, 24(1), 44, 2007
- Woo SW, Kang Y, Kang KS, Kim CH, Kim CS, Park CS, Korean Chemical Engineering Research, 46(6), 1113, 2008
- Song SH, Son JH, Budiman AW, Choi MJ, Chang TS, Shin CH, Korean Journal of Chemical Engineering, 31(2), 224, 2014
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