The process theory, start-up shift, catalyst reduction and the main points of normal operation of the CO medium temperature shift technology after the reaction are introduced.
介绍了转化反应后的CO中温变换技术,其中包括工艺原理、开工变换、催化剂还原和正常操作要领。
The results show that the catalyst specific area and its pore structure is generated during the reduction process and the catalyst before reduction can be regarded as a compact solid with little pore.
研究结果表明,催化剂的比表面积和孔结构是在还原脱氧过程中产生的,还原前的催化剂可视为无孔隙的致密固体。
Application of "mid low low temperature" shift process is introduced. The flowsheet, main equipment, catalyst reduction and operation are described.
介绍中低低变换工艺的应用情况,给出了工艺流程和主要设备,阐述了催化剂的升温还原过程和生产运行及存在的问题。
This article introduces the hyperthermic reduction process of alcohol-copper hase catalyst, besides, it points out the items for attention during hyperthermic reduction.
介绍了联醇铜基催化剂升温还原的方法以及升温还原过程中应注意的事项。
The theory of oxidation-reduction electric potential is applied to investigate wet desulphurization process, which seeks for suitable catalyst. and restrains side reaction of mother liquor.
运用氧化. 还原电位理论讨论湿式脱硫,寻找合适的催化剂, 抑制母液副反应。
The method removes impurities by synthesis process and self-reduction process of the catalyst and realizes metallization of the active component and high dispersion.
本法通过催化剂的合成和自还原过程去除了杂质,实现了活性组分的金属化和高分散化。
The method removes impurities by synthesis process and self-reduction process of the catalyst and realizes metallization of the active component and high dispersion.
本法通过催化剂的合成和自还原过程去除了杂质,实现了活性组分的金属化和高分散化。
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