考察了氯化反应器、预热温度、氯气流速、反应温度及反应时间对氯气转化率的影响。
The effects of chloridization reactor, preheat temperature, chlorine flow rate, reaction temperature and reaction time on the conversion of chlorine gas were examined.
通过对氧氯化反应器旋风分离器腐蚀原因的分析,提出了旋风分离器的材料选择方案及安装的改进措施。
Based on the analysis, material selection of oxygen chloride reactor was discussed from theory and practice in accordance with corrosion resistance of material.
在反应的结尾时,反应器里面,消耗了四氯化钛和镁。
And at the end of the reaction, you have the reactor consumed of titanium tetrachloride magnesium.
氯化处理是在一个管状的2米高200毫米直径的杜拉玻璃反应器中进行的。
The chlorination is performed in a tubular reactor of Duran glass about 2 m high and 200 mm in diameter.
文中采用示踪法研究了四氯化钛氧化反应器内径向射流混合特征,探讨了射流环开孔结构和动量比等因素对射流混合效果的影响。
The process of jet mixing in the reactor was studied with tracer technique and the effects of the opening structure on the wall of the feed ring and the momentum ratio to the jet mixing were analyzed.
采用积分反应器,研究了吡啶氯化反应中催化剂失活动力学。
The catalyst deactivation kinetics of pyridine chlorination was investigated in an integral fixed reactor.
环形反应器既是反应器又是结晶器,既有很高的转化率又保证了产品结晶颗粒大而均匀,氯化反应过程也更安全。
It has a high collection degree. The circle flow reaction vessel is both a reactor and a crystallizer, with a very high percent conversion and macroggregate. Chlorination reaction is also in safety.
本文以四氯乙烯与五氯化钼为原料,在特制反应器内进行光化学反应,制得了高纯度四氯化钼。
Molybdenum(IV) chloride with high purity was prepared by the photochemical reaction of tetrachloroethylene and molybdenum(V) chloride in special reactor.
在环流反应器中考察了光照下不同反应温度对乙酸氯化反应的影响,实测了不同温度下,乙酸、氯乙酸和二氯乙酸的浓度随反应时间的变化关系。
The effects of different temperature on the chlorination of HAc were researched. The relations between the concentration of HAc, MCA and DCA and time were measured.
作者利用五个实验室规模的完全混合反应器进行较长时间的半连续培养,研究在氯化钠抑制下乙酸盐的厌氧降解。
A long-term semi-continuous cultivation was performed in five lab-scale complete mixed reactors in order to study the anaerobic degradation of acetate under NaCl inhibition.
通过运用新型的内环流反应器对氯化苄光氯化反应机理和宏观状态的分析,建立了氯化苄氯化的连串反应动力学模型。
The kinetic model of consecutive reaction for chlorination of benzyl chloride was built by analyzing the reaction mechanism and macroscopic stage.
盐酸浸取高岭土中的氧化铝是制备聚合氯化铝的基础反应,通常采用间歇反应器进行反应。
The aluminium oxide in Kaolinite is leached in hydrochloric acid which is the foundational reaction to produce poly-aluminium chloride. In general, batch reactor is adopted in the reaction.
盐酸浸取高岭土中的氧化铝是制备聚合氯化铝的基础反应,通常采用间歇反应器进行反应。
The aluminium oxide in Kaolinite is leached in hydrochloric acid which is the foundational reaction to produce poly-aluminium chloride. In general, batch reactor is adopted in the reaction.
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