METHANOL REFORMING IN SUPERCRITICAL WATER FOR HYDROGEN PRODUCTION

N. BOUKIS; V. DIEM; U. GALLA; E. DINJUS

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METHANOL REFORMING IN SUPERCRITICAL WATER FOR HYDROGEN PRODUCTION

机译：超临界水中的甲醇重整制氢

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The production of hydrogen by reforming of methanol in supercritical water was studied in continuous flow apparatus made of nickel base alloys. Experiments were performed at pressures from 25 to 45 MPa, temperatures in the range of 400 to above 600℃ and residence times from few seconds up to few minutes. The feed concentration varied from 5 to 64 wt.% methanol. The main component of the product gas is H_2, carbon is converted to CO_2, CO, and CH_4. Methanol conversion is up to 99.9% without addition of a catalyst. Oxidation of the reactor inner surface before gasification turned out to enhance the reaction rate and to lower the carbon monoxide concentration. Obviously, the heavy metals of the inner surface of the reactors catalyze the reaction. Pilot-plant tests (with a flow rate of 100kg/h) confirm the laboratory experiments and give data for the energy balance of the process.

机译：在由镍基合金制成的连续流动装置中，研究了在超临界水中甲醇重整制氢的方法。实验是在25至45 MPa的压力，400至600℃以上的温度以及几秒钟到几分钟的停留时间下进行的。进料浓度为5-64重量％甲醇。产物气的主要成分是H_2，碳转化为CO_2，CO和CH_4。不添加催化剂，甲醇转化率高达99.9％。证实在气化之前反应器内表面的氧化可提高反应速率并降低一氧化碳浓度。显然，反应器内表面的重金属催化反应。中试测试（流量为100kg / h）证实了实验室实验并给出了过程能量平衡的数据。

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来源
《Combustion Science and Technology》 |2006年第3期|p.467-485|共19页
作者
N. BOUKIS; V. DIEM; U. GALLA; E. DINJUS;
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作者单位

Institut fuer Technische Chemie, Chemisch-Physikalische Verfahren (ITC -CPV), Forschungszentrum Karlsruhe GmbH, Germany;

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原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
methanol; hydrogen; supercritical water; water gas shift reaction; methanol reforming; pilot-plant scale;

机译：甲醇;氢气;超临界水;水煤气变换反应;甲醇重整;中试规模;
入库时间 2022-08-18 00:12:35

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机译：锌辅助水活化提高铜催化甲醇水蒸气重整制氢
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METHANOL REFORMING IN SUPERCRITICAL WATER FOR HYDROGEN PRODUCTION

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