Steam Reforming of Methanol over SnO_2 Catalyst Inactive for The Reverse Water-gas Shift Reaction

机译：SnO_2催化剂上甲醇水蒸气重整反应对水煤气逆反应无反应

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In recent years, H_2 production for a fuel cell has become of general interest and steam reforming of methanol has been investigated extensively using group Ⅷ metal or Cu-containing catalysts. The reaction over group Ⅷ metal catalysts is considered to proceed through the methanol decomposition into CO and H_2, followed by the water-gas shift reaction. On the other hand, methanol is hydrolyzed over Cu-containing catalyst to give formic acid that decomposes into CO_2 and H_2. CO is formed in some extent over both catalysts because of the thermodynamic equilibrium of water-gas shift reaction. Recently, we have reported that SnO_2 catalyzes methanol conversion to form CH_4, CO_2 and H_2 (eq 1) selectively. 2 CH_3OH→ CH_4 + CO_2 + 2H_2 (1) In this study, we investigated the steam reforming of methanol by using SnO_2 catalyst.

机译：近年来，燃料电池的H_2生产已成为人们普遍关注的问题，并且使用steam族金属或含Cu催化剂广泛地研究了甲醇的蒸汽重整。在第over族金属催化剂上的反应被认为是通过甲醇分解成CO和H_2，然后进行水煤气变换反应而进行的。另一方面，甲醇在含铜催化剂上水解得到甲酸，分解为CO_2和H_2。由于水煤气变换反应的热力学平衡，在两种催化剂上都会在一定程度上形成CO。最近，我们报道了SnO_2催化甲醇转化选择性地形成CH_4，CO_2和H_2（eq 1）。 2 CH_3OH→CH_4 + CO_2 + 2H_2（1）在本研究中，我们研究了使用SnO_2催化剂对甲醇进行蒸汽重整。

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来源
《Asia-Pacific Congress on Catalysis:Abstracts vol.2; 20031012-15; Dalian(CN)》|2003年|P.488-489|共2页
会议地点 Dalian(CN)
作者
Arthit Neramittagapong; Tohru Mori; Jun Kubo; Yutaka Morikawa;
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作者单位

Chemical Resources Laboratory, Tokyo Institute of Technology, Japan;

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原文格式 PDF
正文语种 eng
中图分类催化反应过程;
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1. PdZnAl catalysts for the reactions of water-gas-shift,methanol steam reforming,and reverse-water-gas-shift [J] . R.A.Dagle, A.Platon, D.R.Palo Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2008,第1a2期

机译：PdZnAl催化剂用于水煤气变换，甲醇蒸汽重整和反向水煤气变换的反应
2. Activity and durability of water-gas shift catalysts used for the steam reforming of methanol [J] . D.G. Loeffler, S.D. McDermott, C.N. Renn Journal of power sources . 2003,第1期

机译：用于甲醇蒸汽重整的水煤气变换催化剂的活性和耐久性
3. Performance of dynamic oxygen storage capacity, water-gas shift and steam reforming reactions over Pd-oniy three-way catalysts [J] . Zhiqun Han, Jianqiang Wang, Haijun Yan Catalysis Today . 2010,第3a4期

机译：Pd-oniy三效催化剂的动态储氧能力，水煤气变换和蒸汽重整反应性能
4. Steam Reforming of Methanol over SnO_2 Catalyst Inactive for The Reverse Water-gas Shift Reaction [C] . Arthit Neramittagapong, Tohru Mori, Jun Kubo, Asia-Pacific Congress on Catalysis . 2003

机译：甲醇对SnO_2催化剂的蒸汽重整为反向水气移反应
5. Investigation of active sites and reaction networks in catalytic hydrogen production: Steam reforming of lower alkanes and the water-gas shift reaction. [D] . Natesakhawat, Sittichai. 2005

机译：研究催化氢生产中的活性位点和反应网络：低级烷烃的蒸汽重整和水煤气变换反应。
6. Recent Advances in Supported Metal Catalysts and Oxide Catalysts for the Reverse Water-Gas Shift Reaction [O] . Xiaodong Chen, Ya Chen, Chunyu Song, 2020

机译：支持金属催化剂和氧化物催化剂的最新进展用于反向水气移反应
7. PdZnAl Catalysts for the Reactions of Water-Gas-Shift, Methanol Steam Reforming, and Reverse-Water-Gas-Shift [O] . Dagle, R. A, Platon, A., Palo, D. R., 2008

机译：PdZnAl催化剂用于水煤气变换，甲醇蒸汽重整和水煤气变换反向反应
8. Flame Synthesis of Nanosized Cu-Ce-O, Ni-Ce-O, and Fe-Ce-O Catalysts for the Water-Gas Shift (WGS) Reaction [R] . Pati, R. K., Lee, I. C., Hou, S., 2009

机译：用于水煤气变换（WGs）反应的纳米Cu-Ce-O，Ni-Ce-O和Fe-Ce-O催化剂的火焰合成

Steam Reforming of Methanol over SnO_2 Catalyst Inactive for The Reverse Water-gas Shift Reaction

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