The optimum reaction temperature and time were given.
给出了最佳反应温度和反应时间。
The reaction temperature had somehow effects on the reactions.
反应温度对反应有一定的影响。
The proper amount of DBTL catalyst of reaction temperature were given.
确定了适宜的催化剂用量和反应温度。
Polymerization speed increases with the increase of reaction temperature.
聚合反应温度提高,聚合速率加快。
The proper reaction temperature and time are determined in the experiment.
通过试验,确定了合适的反应温度和反应时间。
Systems studied the amount of catalyst, reaction temperature of the reaction.
系统的考察了催化剂用量,反应温度对该反应的影响。
The concentration of emulsifier and the reaction temperature is the main f...
乳化剂的浓度和反应温度是影响产品性能的主要因素。
The reaction temperature was moderate and the operation was easily controlled.
反应条件温和,操作容易控制。
The increase of reaction temperature will accelerate the coking rate of catalyst.
温度 以及催化剂等对丙烯酸转化率的影响。
The higher reaction temperature was given, the better crystal morphology was appeared.
水热反应温度的提高有利于获得形貌规则的晶粒;
The effects of reaction time, reaction temperature and the catalyst were investigated.
研究了反应时间、反应温度以及催化剂等对丙烯酸转化率的影响。
The results show that flow rate, microwave power and reaction temperature are key factors.
实验结果表明,气体流量、微波功率和反应温度对脱硫、脱氮率影响较大。
The influence of reaction temperature and gas flow rate on purification efficiency was studied.
研究反应温度和气体流量对磷化氢净化效率的影响。
The influence of catalysts, reaction temperature and reaction time on reactions were discussed.
同时探讨了催化剂的选择、反应温度、反应时间对反应的影响。
At the same time, we have researched the optimum conditions of reaction and reaction temperature.
并且研究了反应时间和反应温度等最佳条件。
The influence of reaction temperature and reaction time on degree of esterification were investigated.
通过正交实验考察了反应时间、反应温度对聚乙烯醇酯化程度的影响。
The reaction conditions such as reaction temperature, reaction time, addition of I_2, solvents were optimized.
考察了反应温度、反应时间、催化剂用量、溶剂种类等因素对上述反应的影响。
The physical functions include separating heat, cutting off oxygen and decreasing burning reaction temperature.
物理作用包括隔热、隔氧、降低燃烧反应温度等。
Effects of reaction temperature, reaction time, solvent, catalyst and its amount on prepolymerization was studied.
探讨了反应温度、反应时间、溶剂、催化剂及用量对预聚反应的影响。
The influence of reaction temperature, coolant temperature, reaction pressure and reactor air speed was predicted.
预测了反应温度、冷却介质温度、反应压力和反应空速对加氢反应结果的影响。
It is very important for reactor design and control to choose and control the temperature throughout the reaction process.
选择和控制反应过程的温度是反应器设计和控制中的重要问题。
How to reduce the temperature of reaction is expected to reduce the foot.
怎么样可以降低反应的温度而使脚料减少。
Abstract; the temperature of carbonyl synthesis reaction is studied.
对拨基合成反应的温度进行了研究。
The temperature of carbonyl synthesis reaction is studied.
摘要对羰基合成反应的温度进行了研究。
The structure reaction of some temperature loads is emphasized in this paper.
本文着重探讨了结构各种温度荷载作用的效应。
Reaction conditions also determine bake time, temperature and, therefore, energy consumption.
反应的条件也决定了烘干时间及温度,以及消耗能源。
The thermokinetics of formation reaction was studied at different temperature by liquid-phase reaction.
改变反应温度,研究了配合物的液相生成反应的热力学性质。
To master the relation of reaction rate constant and temperature.
掌握反应速率常数与温度的关系。
The results showed that hydrolysis temperature is a crucial factor to control the reaction rate.
结果表明,反应温度是影响水解速率的主要因素。
The influence of temperature on the axial reaction was discussed.
探讨了温度对轴向配位反应的影响。
应用推荐