评述了甲醇分解、甲醇水蒸气重整和甲醇氧化重整催化剂的研究情况。
The catalysts for decomposition of methanol, steam reforming of methanol and partial oxidation of methanol were commented separately.
本发明提供了一种用于高温甲醇水蒸气重整制氢过程的贵金属催化剂。
The invention provides a noble metal catalyst which is used for hydrogen preparation by a water steam reforming of methanol at high temperature.
甲烷重整制合成气有三条路径:水蒸气重整,二氧化碳重整和部分氧化。
There are three approaches to produce synthesis gas from methane, namely, reforming with H_2O (steam reforming), with CO_2 (CO_2 reforming), and partial oxidation.
重点讨论了甲醇水蒸气重整制氢催化剂体系:铜系催化剂和贵金属系催化剂。
The catalyst systems, such as copper system and noble metal system, for hydrogen production by methanol steam reforming are especially discussed.
试验研究分析了反应温度、进料速度、水醇比(水和甲醇的物质的量的比)、反应时间对甲醇水蒸气重整制氢微型反应器性能的影响。
The effects of reaction temperature, space velocity, molar ratio of water to methanol, and reaction time on the performance of the micro reactor were investigated.
本文介绍了生物油水蒸气催化重整反应机理与热力学分析,介绍了催化重整制氢过程催化剂、制氢工艺条件、代表性的反应器及工艺流程。
In this paper, some typical reactor designs, process engineering, operation conditions, catalyst, reaction mechanism, and thermal analysis of catalytic steam reforming of bio-oil are presented.
本文介绍了生物油水蒸气催化重整反应机理与热力学分析,介绍了催化重整制氢过程催化剂、制氢工艺条件、代表性的反应器及工艺流程。
In this paper, some typical reactor designs, process engineering, operation conditions, catalyst, reaction mechanism, and thermal analysis of catalytic steam reforming of bio-oil are presented.
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