评述了燃料电池上甲醇水蒸汽重整制氢的现实意义。
The practical significance of hydrogen production from methanol steam reforming in fuel cell was reviewed with 36 references.
介绍了水电解制氢和天然气重整制氢技术的原理及其工艺流程。
The paper describes the principles and process flowsheet of hydrolytic and electrolytic hydrogen making and hydrogen making by natural gas reformation.
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.
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.
以往的研究者只关心一方面,主要研究催化重整制氢,或者是蓄热式换热等。
Formerly, researchers took attention to one aspect, for example, it was about generating hydrogen by catalytic reforming or regenerative heat exchange.
基于不同用能系统整合和能的综合梯级利用思路,研究提出一种新颖的太阳能甲醇重整制氢-发电联产系统。
Based on the different energy system integration and method of synthetic cascade utilization of energy, a novel solar methanol reforming hydrogen production-power cogeneration system is proposed.
提出了烧结机烟气中低温废热与甲醇蒸汽重整制氢整合的新方法,模拟建立了中低温废热结合甲醇重整制氢的系统。
A new approach was presented for combining the medium-and-low temperature waste heat in sintered gas with methanol steam reforming to produce hydrogen.
通过综合比较与技术分析,指出天然气重整制氢工艺在生产成本方面有较大优势,且在粉末冶金企业中已有成功应用的先例;
The results of comparison and technical analysis show that the latter is much more superior in respect of production and it is successfully applied in the P/M enterprises.
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.
将该算法应用于加氢裂化、制氢、铂重整等工业过程的仿真培训系统,取得了满意的效果。
It has been applied to simulation training systems of the hydrogen cracking, hydrogen-making, and platinum reforming etc., and the satisfied effects are obtained.
将该算法应用于加氢裂化、制氢、铂重整等工业过程的仿真培训系统,取得了满意的效果。
It has been applied to simulation training systems of the hydrogen cracking, hydrogen-making, and platinum reforming etc., and the satisfied effects are obtained.
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