The impact of dry gas on FCC reaction becomes increasingly pronounced with lower reactor temperature and lower hourly space velocity, greater catalyst to oil ratio and longer reaction time.
而且在反应温度和空速越低、剂油比越大、反应时间越长的条件下,催化裂化反应受干气比率的影响越明显。
High catalyst to oil ratio mainly leads to carbenium ion catalytic reaction, which LPG and coke yields were remarkably increased but dry gas yield was basically unchanged.
由剂油比增加引起的过裂化属于过度催化反应,过裂化点后液化气和焦炭产率出现明显增加的趋势,但干气产率基本上没有变化。
After single factor optimization, temperature, catalyst amount and molar ratio of methanol to oil were the important factors.
在单因素优化的基础上,确定反应温度、催化剂用量及醇油摩尔比等为显著影响因素。
The result showed proper reaction temperature, catalyst to oil ratio and short reaction time may detriment thermal cracking reaction, hydrogen transfer reactions, and get high propylene selectivity.
结果表明:适当的反应温度,剂油比,反应时间短,可能损害的热裂化反应,氢转移反应,并获得高的丙烯选择性。
The result showed proper reaction temperature, catalyst to oil ratio and short reaction time may detriment thermal cracking reaction, hydrogen transfer reactions, and get high propylene selectivity.
结果表明:适当的反应温度,剂油比,反应时间短,可能损害的热裂化反应,氢转移反应,并获得高的丙烯选择性。
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