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费托合成高温油相产品中正构烃的分离
引用本文:王燕,葛喜慧,张敏卿,朱怀工,张子建,王明. 费托合成高温油相产品中正构烃的分离[J]. 化工进展, 2014, 33(11): 2894-2898
作者姓名:王燕  葛喜慧  张敏卿  朱怀工  张子建  王明
作者单位:1.天津大学化工学院,天津 300072;2中国神华煤制油化工有限公司榆林化工分公司,陕西 榆林 719000; 3中国天大天久科技股份有限公司,天津 300072
基金项目:国家高技术发展计划项目(2011AA05A204)。
摘    要:以模拟的费托合成高温油相产品为原料,采用尿素包合法从原料中分离正构烃。考察了活化剂的种类、包合反应条件、解包合反应条件等对正构烃分离效果的影响。通过正交实验研究,结果表明:乙醇为较适宜的活化剂;较优反应条件为反应温度5℃,反应时间60min,以1g原料为基准,尿素用量2.75g,乙醇用量3.5mL,水用量1.125mL。在此包合反应条件下,得到1-癸烯的回收率为87.75%,正癸烷的回收率为89.90%。尿素包合物的解包合反应实验结果说明,水的存在有利于解包合反应的进行,得到正构烃回收率较高。用水量为100 mL时,尿素包合物的解包合反应基本完成。

关 键 词:尿素包合法  费托合成高温油相产品  正构烃  多相反应  分离  优化  

Separation of n-hydrocarbons from high temperature oil phase products of Fischer-Tropsch synthesis
WANG Yan,GE Xihui,ZHANG Minqing,ZHU Huaigong,ZHANG Zijian,WANG Ming. Separation of n-hydrocarbons from high temperature oil phase products of Fischer-Tropsch synthesis[J]. Chemical Industry and Engineering Progress, 2014, 33(11): 2894-2898
Authors:WANG Yan  GE Xihui  ZHANG Minqing  ZHU Huaigong  ZHANG Zijian  WANG Ming
Affiliation:1 School of Chemical Engineering & Technology,Tianjin University,Tianjin 300072,China;2 Yulin Chemical Branch,China Shenhua Coal to Liquid and Chemical Co.,Ltd.,Yulin 719000,Shaanxi,China;3 Tianjin Univtech Co.,Ltd.,Tianjin 300072,China
Abstract:The simulated high temperature oil phase products of Fischer-Tropsch synthesis were taken as raw materials and the urea inclusion method was used to separate n-hydrocarbons from the raw materials. The effects of activators,inclusion reaction conditions and unpacked reaction conditions on n-hydrocarbons separation were studied. Orthogonal experimental study showed that ethanol was a suitable activator and the optimal reaction conditions for inclusion were:reaction temperature 5 ℃,reaction time 1h,based on 1g raw materials,amount of urea 2.75g,amount of ethano 3.5mL,amount of water 1.125mL. Under the optimal reaction conditions,recovery rate of 1-decene was 87.75% and that of n-decane was 89.90%. The unpacked reaction results of inclusion complex illustrated that presence of water was conducive to the unpacked reaction and recovery rate of n-hydrocarbons was higher than without water. When water consumption reached 100 mL,the unpacked reaction of inclusion complex was completed.
Keywords:urea inclusion method  high temperature products of Fischer-Tropsch synthesis  n-hydrocarbon  multiphase reaction  separation  optimization
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