Isobaric Vapor–Liquid Phase Equilibrium Measurements of the Dichloromethane–Titanium Tetrachloride System at 101,325 Pa

Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose equilibrium still at 101,325 Pa. Raman spectroscopy was employed to quantitatively analyze the concentrations of titanium tetrachloride and dichlorometha...

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Published in	Journal of solution chemistry Vol. 49; no. 9-10; pp. 1125 - 1136
Main Authors	Xiang, Xiaoyan, Xia, Wentang, Yin, Jianguo, Yuan, Xiaoli
Format	Journal Article
Language	English
Published	New York Springer US 01.10.2020 Springer Nature B.V
Subjects	Chemistry Chemistry and Materials Science Condensed Matter Physics Dichloromethane Geochemistry Industrial Chemistry/Chemical Engineering Inorganic Chemistry Interaction parameters Liquid phases Oceanography Physical Chemistry Raman spectroscopy Titanium Titanium chlorides Vapor phases Titanium tetrachloride Dichloromethane NRTL model Vapor–liquid equilibrium Wilson model Binary system
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Abstract	Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose equilibrium still at 101,325 Pa. Raman spectroscopy was employed to quantitatively analyze the concentrations of titanium tetrachloride and dichloromethane in the samples from the still. The Herington method and the McDermott–Ellis method were used to check the thermodynamic consistency of the experimental data, which were correlated by the Wilson and NRTL models to obtain binary interaction parameters. The results show that the calculated values of mole fraction of the vapor phase and boiling temperature by the Wilson and NRTL models agree well with the experimental data. Finally, the T – x – y diagram was drawn according to the VLE data and calculated data from the Wilson and NRTL models. There is a negative deviation of the new binary system from ideal solution and no azeotropic behavior was found. All these results could guide the separation of dichloromethane and titanium tetrachloride.
AbstractList	Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose equilibrium still at 101,325 Pa. Raman spectroscopy was employed to quantitatively analyze the concentrations of titanium tetrachloride and dichloromethane in the samples from the still. The Herington method and the McDermott–Ellis method were used to check the thermodynamic consistency of the experimental data, which were correlated by the Wilson and NRTL models to obtain binary interaction parameters. The results show that the calculated values of mole fraction of the vapor phase and boiling temperature by the Wilson and NRTL models agree well with the experimental data. Finally, the T – x – y diagram was drawn according to the VLE data and calculated data from the Wilson and NRTL models. There is a negative deviation of the new binary system from ideal solution and no azeotropic behavior was found. All these results could guide the separation of dichloromethane and titanium tetrachloride. Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose equilibrium still at 101,325 Pa. Raman spectroscopy was employed to quantitatively analyze the concentrations of titanium tetrachloride and dichloromethane in the samples from the still. The Herington method and the McDermott–Ellis method were used to check the thermodynamic consistency of the experimental data, which were correlated by the Wilson and NRTL models to obtain binary interaction parameters. The results show that the calculated values of mole fraction of the vapor phase and boiling temperature by the Wilson and NRTL models agree well with the experimental data. Finally, the T–x–y diagram was drawn according to the VLE data and calculated data from the Wilson and NRTL models. There is a negative deviation of the new binary system from ideal solution and no azeotropic behavior was found. All these results could guide the separation of dichloromethane and titanium tetrachloride.
Author	Yin, Jianguo Xiang, Xiaoyan Xia, Wentang Yuan, Xiaoli
Author_xml	– sequence: 1 givenname: Xiaoyan surname: Xiang fullname: Xiang, Xiaoyan email: xxycsu@126.com organization: School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology – sequence: 2 givenname: Wentang surname: Xia fullname: Xia, Wentang organization: School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology – sequence: 3 givenname: Jianguo surname: Yin fullname: Yin, Jianguo organization: School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology – sequence: 4 givenname: Xiaoli surname: Yuan fullname: Yuan, Xiaoli organization: School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology
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Keywords	Titanium tetrachloride Dichloromethane NRTL model Vapor–liquid equilibrium Wilson model Binary system
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Snippet	Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose... Isobaric vapor–liquid phase equilibrium (VLE) data of the titanium tetrachloride (1) + dichloromethane (2) system were measured by a modified Rose equilibrium...
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SubjectTerms	Chemistry Chemistry and Materials Science Condensed Matter Physics Dichloromethane Geochemistry Industrial Chemistry/Chemical Engineering Inorganic Chemistry Interaction parameters Liquid phases Oceanography Physical Chemistry Raman spectroscopy Titanium Titanium chlorides Vapor phases
Title	Isobaric Vapor–Liquid Phase Equilibrium Measurements of the Dichloromethane–Titanium Tetrachloride System at 101,325 Pa
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