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机构地区:[1]福建师范大学福清分校生物与化学工程系,福建福州350300 [2]福州大学化学化工学院,福建福州350108 [3]中海油山东化学工程有限责任公司,山东济南250013
出 处:《山东大学学报(工学版)》2013年第1期109-114,122,共7页Journal of Shandong University(Engineering Science)
基 金:国家自然科学基金资助项目(21176049);福建省教育厅科研资助项目(JB10202)
摘 要:基于乙酸乙酯与乙醇共沸特性的分析,提出了热集成变压精馏的分离工艺,由加压塔和常压塔串联构成。选择NRTL(non random two liquids)模型为物性计算方法,其二元相互参数由汽液相平衡数据回归,利用AspenPlus软件对提出的分离工艺进行模拟与优化,详细分析了两塔的理论板数、进料位置及回流比对分离的影响,并对比能耗。结果表明,热集成变压精馏分离工艺能很好地实现乙酸乙酯与乙醇的分离,得到最佳的工艺条件,与常规变压精馏相比,热集成变压精馏可节约加热蒸汽34.7%,为共沸物分离的设计和过程节能提供依据。Heat-integrated pressure swing distillation for separation of ethyl acetate and ethanol was investigated based on the pressure-sensitivity of the azeotropic composition, and the separation sequence was formed by two columns operating at different pressures. The simulation of separation process was carded out satisfactorily by means of a package of com- mercial software Aspen Plus and using the thermodynamic model NRTL (non random two liquids) with binary parame- ters between ethyl acetate and ethanol obtained by experimental data of vapor liquid equilibrium (VLE). The factors af- fecting the separation efficiency and energy consumption including the number of theoretical plates, feed location and re- flux ratio of two columns were analyzed. The results showed that ethyl acetate and ethanol could be efficiently separated by heat-integrated pressure swing distillation, and the optimal conditions were obtained. The heat-integrated pressure swing distillation could save heating steam by 34. 7% compared with conventional pressure swing distillation, which could provide an effective method for the design and energy-saving of azeotropic system separation.
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