Integration of methanol steam reforming and combustion in a microchannel reactor for H2 production: A CFD simulation study

G. Arzamendi; P.M. Dieguez; M. Montes

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Integration of methanol steam reforming and combustion in a microchannel reactor for H2 production: A CFD simulation study

机译：用于生产氢气的微通道反应器中甲醇蒸汽重整和燃烧的集成：CFD模拟研究

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A computational fluid dynamics (CFD) study of the thermal integration of the steam reforming of methanol (SRM) and the combustion of methanol in a catalytic microchannel reactor is presented. This issue is of interest for in situ H2 production for portable power units based on low-temperature PEM fuel cells. Three-dimensional simulations have been carried out under relevant conditions for the SRM reaction that have shown that microreactors allow achieving complete methanol reforming and combustion at space velocities as high as 50,000 h~(-1) with selectivities for H2 above 99% at relatively low temperatures in the 270-290 °C range.

机译：提出了对甲醇蒸汽重整（SRM）的热整合和催化微通道反应器中甲醇燃烧的热力学计算流体动力学（CFD）研究。对于基于低温PEM燃料电池的便携式动力装置的现场H2生产，此问题引起关注。在SRM反应的相关条件下进行了三维模拟，结果表明，微反应器可以在高达50,000 h〜（-1）的空速下实现完全的甲醇重整和燃烧，而H2的选择性相对较低，高于99％温度在270-290°C范围内。

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《Catalysis Today》 |2009年第2期|共7页
作者
G. Arzamendi; P.M. Dieguez; M. Montes;
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正文语种 eng
中图分类化学动力学、催化作用;
关键词
Hydrogen for PEMFC; MicroChannel reactor; Methanol steam reforming; Methanol combustion; Computational fluid dynamics (CFD);

机译：PEMFC氢气;微通道反应器;甲醇蒸汽重整;甲醇燃烧;计算流体力学（CFD）;

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1. Integration of methanol steam reforming and combustion in a microchannel reactor for H2 production: A CFD simulation study [J] . G. Arzamendi, P.M. Dieguez, M. Montes Catalysis Today . 2009,第1a2期

机译：用于生产氢气的微通道反应器中甲醇蒸汽重整和燃烧的集成：CFD模拟研究
2. Comparisons between methane and methanol steam reforming in thermally integrated microchannel reactors for hydrogen production: A computational fluid dynamics study [J] . Junjie Chen, Longfei Yan, Wenya Song, International journal of hydrogen energy . 2018,第31期

机译：热集成微通道反应器中甲烷和甲醇蒸汽重整制氢的比较：计算流体动力学研究
3. Mathematical modeling of hydrogen production using methanol steam reforming in the coupled membrane reactor when the output materials of the reformer section is used as feed for the combustion section [J] . Talaghat Mohammad Reza, Naamaki Nourollah International journal of hydrogen energy . 2021,第2期

机译：耦合膜反应器中甲醇蒸汽重整氢气生产的数学建模用作燃烧截面的进料
4. NUMERICAL SIMULATION OF STEAM REFORMING OF METHANOL IN MICROCHANNEL REACTOR [C] . Wenzhi Cui, Longjian Li, Tien-Chien Jen, HTD-vol.376-2; ASME(American Society of Mechanical Engineers) International Mechanical Engineering Congress and Exposition; 20051105-11; Orlando,FL(US) . 2005

机译：微通道反应器中甲醇蒸汽重整的数值模拟
5. Integrated Steam Reforming/Catalytic Combustion Annular Microchannel Reactor for Hydrogen Production [D] . Butcher, Holly A. 2017

机译：一体化蒸汽重整/催化燃烧环形微通道反应器用于制氢
6. High yields of hydrogen production from methanol steam reforming with a cross-U type reactor [O] . Shubin Zhang, Yufeng Zhang, Junyu Chen, 2011

机译：使用交叉U型反应器重整甲醇蒸汽重整制氢的高产率
7. Catalytic hollow fibre based reactors for a enhance H2 production by methanol steam Reforming [O] . Garcia-García, FR, Yu, KMK, Tsang, SC, 2012

机译：催化中空纤维基反应器，可通过甲醇蒸汽重整提高氢气产量

Integration of methanol steam reforming and combustion in a microchannel reactor for H2 production: A CFD simulation study

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