Simulation and optimization of different pressure thermally coupled distillation for separating a close-boiling mixture of n-butanol and iso-butanol

Lixin Liu, Liuliu Zhu, Lanyi Sun, Minyan Zhu, Guili Liu
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引用次数: 3

Abstract

Substantial quantities of energy are required in conventional distillation columns applied in high-purity separation of close-boiling mixtures. To achieve energy saving of distillation, a novel different pressure thermally coupled distillation (DPTCD) was proposed for separating the close-boiling mixture of n-butanol and iso-butanol. Both this intensified energy integration technique and two other processes, namely conventional distillation (CD) and vapor recompression column (VRC), were simulated in process simulator Aspen Plus. The optimization was carried out to determine the optimal values of design and operating variables on the basis of minimizing energy consumption. Subsequently, the energy saving and economic efficiency of the DPTCD scheme were evaluated through the comparison with the other two processes. The results showed that, compared to the CD and VRC processes, the energy consumption of DPTCD process was decreased by 65.21 and 15.79%, respectively, and the total annual cost (TAC) of DPTCD process can be reduced by 33.75 and 10.46%. It demonstrated that DPTCD scheme was the most promising alternative to reduce the total energy consumption and TAC with high purity (99.1?wt%) n-butanol and iso-butanol products among these separation processes.

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正丁醇与异丁醇近沸混合物不同压力热耦合蒸馏分离的模拟与优化
传统精馏塔用于近沸点混合物的高纯度分离需要大量的能量。为实现精馏节能,提出了一种新型的异丁醇和正丁醇近沸混合物的差压热耦合精馏(DPTCD)方法。在过程模拟器Aspen Plus上对该强化能量集成技术以及常规蒸馏(CD)和蒸汽再压缩塔(VRC)两种工艺进行了模拟。以能耗最小为目标,进行优化,确定设计变量和运行变量的最优值。随后,通过与其他两种工艺的比较,对DPTCD方案的节能经济性进行了评价。结果表明,与CD和VRC工艺相比,DPTCD工艺的能耗分别降低65.21%和15.79%,DPTCD工艺的年总成本(TAC)分别降低33.75%和10.46%。结果表明,在这些分离工艺中,DPTCD方案是最有希望降低总能耗和TAC的选择,可以获得高纯度(99.1?wt%)的正丁醇和异丁醇产品。
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Applied Petrochemical Research
Applied Petrochemical Research ENGINEERING, CHEMICAL-
自引率
0.00%
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审稿时长
13 weeks
期刊介绍: Applied Petrochemical Research is a quarterly Open Access journal supported by King Abdulaziz City for Science and Technology and all the manuscripts are single-blind peer-reviewed for scientific quality and acceptance. The article-processing charge (APC) for all authors is covered by KACST. Publication of original applied research on all aspects of the petrochemical industry focusing on new and smart technologies that allow the production of value-added end products in a cost-effective way. Topics of interest include: • Review of Petrochemical Processes • Reaction Engineering • Design • Catalysis • Pilot Plant and Production Studies • Synthesis As Applied to any of the following aspects of Petrochemical Research: -Feedstock Petrochemicals: Ethylene Production, Propylene Production, Butylene Production, Aromatics Production (Benzene, Toluene, Xylene etc...), Oxygenate Production (Methanol, Ethanol, Propanol etc…), Paraffins and Waxes. -Petrochemical Refining Processes: Cracking (Steam Cracking, Hydrocracking, Fluid Catalytic Cracking), Reforming and Aromatisation, Isomerisation Processes, Dimerization and Polymerization, Aromatic Alkylation, Oxidation Processes, Hydrogenation and Dehydrogenation. -Products: Polymers and Plastics, Lubricants, Speciality and Fine Chemicals (Adhesives, Fragrances, Flavours etc...), Fibres, Pharmaceuticals.
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