考察了时间、溶剂和催化剂对反应的影响。
The effects of reaction time, solvent and catalysts were investigated.
用INDO程序计算了底物和催化剂的电荷分布。
The charge distribution of the substrate and catalyst was calculated by using INDO program.
降压操作对重整产氢产率和催化剂的生焦影响不大。
The influences of decompression on hydrogen production and coke deposition on catalyst were small.
研究了超临界水氧化中设备的腐蚀和催化剂的稳定性。
The corrosion of equipment and catalyst stability during oxidation in supercritical water have been investigated.
在一定条件下,确定了最佳反应时间和催化剂的用量;
The optimal reaction time and catalyst dosage were determined under some certain conditions.
对催化裂化工艺和催化剂的发展趋势提出了相关的建议。
And the relevant suggestion for developing trend of catalytic cracking process and catalyst is pointed out.
目前上不清楚欧洲最新努力去重新出现的主要驱动力和催化剂是什么。
It is not clear what will be the catalyst for the fundamental skepticism of Europe's latest efforts to re-emerge as the key driver.
同时分析了孔隙率和催化剂表面积对催化剂层性能的影响。
The influence of porosity and active catalyst surface area on the performance of cathode is analyzed as well.
这是因为在活泼氢和催化剂活性中心之间有链转移反应发生。
This is due to the chain transfer reaction between the active hydrogen and the active centers of the catalyst.
Lego系统能够被很容易地添加额外的感知器、发动机和催化剂。
The Lego system can be easily extended with additional sensors, motors, and activators.
介绍了无在线炉硫回收工艺的基本原理、技术特点和催化剂使用情况。
Presents the basic principle, technical features and catalyst of no on line furnace sulfur recovery process.
要深入了解吸附和催化过程,吸附剂和催化剂的孔径分布数据是必要的。
A knowledge of the pore size distribution of catalyst and adsorbent is necessary for the understanding of the details of adsorptive and catalytic processes.
简单地介绍了仲丁醇脱氢反应的机理、催化剂的特点和催化剂的再生步骤。
The mechanism of dehydrogenation of secondary butanol and the catalyst characteristics and regeneration steps were introduced.
而饱和烷烃在离子液体中的溶解能力对烷基化产物和催化剂的分离十分重要。
The solvent capacity of ionic liquid for alkane is important to he separation of the alkylate and the catalyst.
考察了反应温度、反应时间和催化剂的用量等对反应结果的影响,得到最佳工艺条件。
The effects of reaction temperature, reaction time, catalyst dosage etc. on the reaction were investigated and the optimum reaction process was obtained.
本文探讨了原料配比、反应时间和催化剂对产物收率的影响,找到了较佳的合成条件。
The factors, such as radio of row materials, reaction time and catalyst, have been studied, and the better method was found.
本文综述了近年来离子液体作为一种绿色溶剂和催化剂在酯合成反应中的应用研究进展。
The applications of room temperature ionic liquid as a green solvent and catalyst for ester synthesis is reviewed in this paper.
采用该新技术,不仅可提高甲醇产量和催化剂利用率,而且可稳定氨合成操作,提高氨净值。
The adoption of this new technology not only increases methanol output and catalyst utilization ratio, but, also stabilizes ammonia synthesis operation and increases the net ammonia value.
研究了羊毛脂酰胺化改性反应,探讨了物料摩尔比、温度、时间和催化剂用量等对反应的影响。
The amidate modified reaction of lanolin was, studied Material mole ratio, temperature, time, the dosage of catalyzer etc. factors affecting on the reaction were discussed.
随着单体溶液浓度、固化反应温度、引发剂和催化剂加入量的提高,凝胶固化反应速率快速增长。
The rate of solidification process increases with the concentration of the monomer solution, gelation temperature and the amount of the initiator and catalyst.
重点分析了裂解碳九加氢工艺和催化剂技术,强调了原料预处理、反应工艺和催化剂设计等要点。
The hydrogenation technologies, as well as catalysts used in hydrotreating, were analyzed and compared, and feedstock pretreatment, reaction process and catalyst design were discussed.
根据实验结果及分析,对垂直立管的管形设计和催化剂在垂直立管中的密相输送提出了分析与建议。
Based on the experimental results and analysis, the idea and principle about design of standpipe shape and dense-phase transportation of catalyst in the standpipe were presented.
采用特定的方法对金属烧结多孔材料进行表面改性和催化剂复合,开发出一种新型的催化蒸馏构件。
A new type of catalytic distillation column has been developed by means of surface modification and catalyst combination to sintered metal porous materials.
考察了物料配比、反应时间、反应温度和催化剂等因素对反应过程的影响,选择了适宜的工艺条件。
Such influential factors as the ratio of reactants and the type of catalyst, reaction time and temperature are investigated, and the proper technologic processing condition is chosen.
实验结果还表明,实验工况(温度,SR数)和催化剂的添加量对NO的还原都具有不同程度的影响。
The test results also indicate that test conditions (temperature, SR number) and the added quantity of catalysts will more or less influence the process of NO reduction.
实验结果还表明,实验工况(温度,SR数)和催化剂的添加量对NO的还原都具有不同程度的影响。
The test results also indicate that test conditions (temperature, SR number) and the added quantity of catalysts will more or less influence the process of NO reduction.
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