正己烷-苯- des(氯化胆碱/乙二醇,氯化胆碱/甘油,氯化胆碱/尿素)在303 K和101.3 kPa下的三元液-液平衡数据

Mohammed Awwalu Usman, Olumide Kayode Fagoroye, Toluwalase Olufunmilayo Ajayi, Abiola John Kehinde
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引用次数: 5

摘要

本研究以氯化胆碱为氢键受体(HBA),乙二醇(EG)或甘油(GLY)或尿素(U)为氢键供体(HBD)制备了深度共晶溶剂(DESs),并对其作为萃取正己烷中苯的溶剂进行了评价。以不同的HBA: HBD的摩尔比制备了6种溶剂,分别命名为DES1、DES2、DES3、DES4、DES5和DES6。测定了正己烷-苯- dess三元体系的液-液平衡(LLE)数据。K和101.3 kPa。采用传统的云点法测定了正己烷与DES的溶解度数据和互溶解度。用滴定法和折射率测量法获得了两相(正己烷相和des相)的束缚线。三元体系表现出1型相行为。使用other - tobias和Hands方程来检验LLE数据的可靠性。采用非随机双液(NRTL)和通用准化学(UNIQUAC)热力学模型对系线数据进行了关联,并确定了相应的二元相互作用参数。结果表明,DES1、DES2、DES3、DES4、DES5和DES6的最大分离因子分别为31.24、462.00、15.24、37.83、174.60和126.00;甘油基DES (DES2和DES5)的分离系数最高,因此被认为最适合分离苯和己烷。other - tobias方程和Hand方程的回归系数均大于0.99,表明数据的可靠性和一致性。NRTL和UNIQUAC模型都能充分捕捉实验数据。
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Ternary liquid–liquid equilibrium data for n-Hexane-Benzene-DES (choline chloride/ethylene glycol, choline chloride/glycerol, choline chloride/urea) at 303 K and 101.3 kPa

In this study, deep eutectic solvents (DESs) were prepared using choline chloride as hydrogen bond acceptor (HBA) and ethylene glycol (EG) or glycerol (GLY) or urea (U) as hydrogen bond donor (HBD) and were evaluated as solvents in the extraction of benzene from n-hexane. Six of such solvents were prepared using different molar ratios of HBA: HBD and code named DES1, DES2, DES3, DES4, DES5 and DES6. Liquid–liquid equilibria (LLE) data for the ternary systems of n-hexane-benzene-DESs were measured at 303?K and 101.3?kPa. Solubility data and mutual solubilities between n-hexane and DES were measured using the traditional cloud point method. The tie lines were obtained using titration and refractive index measurements on both phases (n-hexane phase and DES-phases). The ternary systems exhibit type-1 phase behavior. The Othmer-Tobias and Hands equations were applied to examine the reliability of the LLE data. The tie-line data were correlated using the nonrandom two-liquid (NRTL) and universal quasichemical (UNIQUAC) thermodynamic models, and their corresponding binary interaction parameters were determined. The results show that the maximum separation factors were 31.24, 462.00, 15.24, 37.83, 174.60 and 126.00 for DES1, DES2, DES3, DES4, DES5 and DES6, respectively. The glycerol based DES (DES2 and DES5) show the highest separation factors and thus considered the most suitable for separating benzene from hexane. The regression coefficient for both Othmer-Tobias and Hand equations are higher than 0.99 for all DESs, indicating the reliability and consistency of the data. Both NRTL and UNIQUAC models adequately capture the experimental data.

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来源期刊
Applied Petrochemical Research
Applied Petrochemical Research ENGINEERING, CHEMICAL-
自引率
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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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