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Microreactor for the Catalytic Partial Oxidation of Methane
引用本文:Widodo Wahyu Puwanto,Yuswan Muharam. Microreactor for the Catalytic Partial Oxidation of Methane[J]. 天然气化学杂志, 2006, 15(4): 271-274. DOI: 10.1016/S1003-9953(07)60005-X
作者姓名:Widodo Wahyu Puwanto  Yuswan Muharam
作者单位:Sustainable Energy Research Group Gas and Petrochemical Engineering Department,Faculty of Engineering,University of Indonesia,Kampus Universitas Indonesia,Depok 1642,Indonesia,Sustainable Energy Research Group,Gas and Petrochemical Engineering Department,Faculty of Engineering,University of Indonesia,Kampus Universitas Indonesia,Depok 1642,Indonesia
基金项目:Acknowledgements We especially thank M. Subhan for technical assistance in carrying out the most of experiments.
摘    要:Fixed-bed reactors for the partial oxidation of methane to produce synthetic gas still pose hot-spot problems. An alternative reactor, which is known as the shell-and-tube-typed microreactor, has been developed to resolve these problems. The microreactor consists of a 1 cm outside-diameter, 0.8 cm inside-diameter and 11 cm length tube, and a 1.8 cm inside-diameter shell. The tube is made of dense alumina and the shell is made of quartz. Two different methods dip and spray coating were performed to line the tube side with the LaNixOy catalyst. Combustion and reforming reactions take place simultaneously in this reactor. Methane is oxidized in the tube side to produce flue gases (CO2 and H2O) which flow counter-currently and react with the remaining methane in the shell side to yield synthesis gas. The methane conversion using the higher-loading catalyst spray-coated tube reaches 97% at 700℃, whereas that using the lower-loading catalyst dip-coated tube reaches only 7.78% because of poor adhesion between the catalyst film and the alumina support. The turnover frequencies (TOFs) using the catalyst spray-and dip-coated tubes are 5.75×10-5 and 2.24×10-5 mol/gcat·s, respectively. The catalyst spray-coated at 900℃provides better performance than that at 1250℃because sintering reduces the surface-area. The hydrogen to carbon monoxide ratio produced by the spray-coated catalyst is greater than the stoichiometric ratio, which is caused by carbon deposition through methane cracking or the Boudouard reaction.

关 键 词:甲烷 催化部分氧化 微反应器 合成气 重整反应
收稿时间:2006-10-18

Microreactor for the Catalytic Partial Oxidation of Methane
Widodo Wahyu Puwanto,Yuswan Muharam. Microreactor for the Catalytic Partial Oxidation of Methane[J]. Journal of Natural Gas Chemistry, 2006, 15(4): 271-274. DOI: 10.1016/S1003-9953(07)60005-X
Authors:Widodo Wahyu Puwanto  Yuswan Muharam
Affiliation:

aSustainable Energy Research Group, Gas and Petrochemical Engineering Department, Faculty of Engineering, University of Indonesia, Kampus Universitas Indonesia, Depok 1642, Indonesia

Abstract:Fixed-bed reactors for the partial oxidation of methane to produce synthetic gas still pose hotspot problems. An alternative reactor, which is known as the shell-and-tube-typed microreactor, has been developed to resolve these problems. The microreactor consists of a 1 cm outside-diameter, 0.8 cm insidediameter and 11 cm length tube, and a 1.8 cm inside-diameter shell. The tube is made of dense alumina and the shell is made of quartz. Two different methods dip and spray coating were performed to line the tube side with the LaNixOy catalyst. Combustion and reforming reactions take place simultaneously in this reactor. Methane is oxidized in the tube side to produce flue gases (CO2 and H2O) which flow counter-currently and react with the remaining methane in the shell side to yield synthesis gas. The methane conversion using the higher-loading catalyst spray-coated tube reaches 97% at 700 ℃, whereas that using the lower-loading catalyst dip-coated tube reaches only 7.78% because of poor adhesion between the catalyst film and the alumina support. The turnover frequencies (TOFs) using the catalyst spray-and 900 ℃ provides better performance than that at 1250 ℃ because sintering reduces the surface-area. The hydrogen to carbon monoxide ratio produced by the spray-coated catalyst is greater than the stoichiometric ratio, which is caused by carbon deposition through methane cracking or the Boudouard reaction.
Keywords:microreactor  catalytic partial oxidation  methane  coating method
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