Experimental study and thermodynamic modelling of ethylene absorption in N-methyl-2-pyrrolidone (NMP)

IF 0.125

Applied Petrochemical Research Pub Date : 2020-07-13 DOI:10.1007/s13203-020-00249-5

Mohammad Yousefi, Shima Azizi, S. M. Peyghambarzadeh, Zoha Azizi

引用次数: 6

Abstract

Determining the solubility of gases in solvents and considering non-idealities at different operating conditions are essential to design a cost-effective and energy-efficient absorption process. In this work, using a lab-made set-up, solubility of ethylene in N-methyl-2-pyrrolidone (NMP) was measured at different temperatures (278.15, 298.15, and 328.15?K) and pressures up to 14?bar, and the kinetic and equilibrium data were obtained. Accordingly, Henry’s law constants are calculated at various temperatures. Then, thermodynamic modeling was accomplished by applying Peng-Robinson equation of state (PR-EOS) and Wilson activity coefficient model, and the binary interaction parameters were estimated. By the thermodynamic modeling, positive deviation from ideal behavior was apparently observed. Due to low absolute average deviation of?<?7.7%, the correlated model was able to predict the ethylene solubility in NMP with a reliable accuracy.

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n -甲基-2-吡咯烷酮(NMP)吸附乙烯的实验研究及热力学模拟

确定气体在溶剂中的溶解度并考虑不同操作条件下的非理想性对于设计具有成本效益和节能的吸收工艺至关重要。在这项工作中，使用实验室自制的装置，测量了乙烯在n -甲基-2-吡咯烷酮(NMP)中的溶解度，在不同的温度(278.15,298.15和328.15 K)和压力高达14?，得到了动力学和平衡数据。因此，在不同温度下计算亨利定律常数。然后，采用Peng-Robinson状态方程(PR-EOS)和Wilson活度系数模型进行热力学建模，估计二元相互作用参数。通过热力学模拟，可以明显地观察到与理想行为的正偏差。该模型的绝对平均偏差为7.7%，能较好地预测乙烯在NMP中的溶解度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Petrochemical Research ENGINEERING, CHEMICAL-

自引率

0.00%

发文量

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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