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乙醇和甲苯组成的最低共沸混合物热力学性质的研究
引用本文:南照东,谭志诚,邢军. 乙醇和甲苯组成的最低共沸混合物热力学性质的研究[J]. 中国化学, 2005, 23(7): 823-828. DOI: 10.1002/cjoc.200590823
作者姓名:南照东  谭志诚  邢军
作者单位:[1]DepartmentofChemistry,QufuNormalUniversity,Qufu,Shandong273165,China//ThermochemistryLaboratory,DalianInstituteofChemicalPhysics,ChineseAcademyofSciences,Dalian,Liaoning116023,China [2]DepartmentofChemistry,QufuNormalUniversity,Qufu,Shandong273165,China [3]ThermochemistryLaboratory,DalianInstituteofChemicalPhysics,ChineseAcademyofSciences,Dalian,Liaoning116023,China
摘    要:The molar heat capacity of the azeotropic mixture composed of ethanol and toluene was measured by a high precision adiabatic calorimeter from 80 to 320 K. The glass transition and phase transitions of the azeotropic mixture were determined based on the heat capacity measurements. A glass transition at 103.350 K was found. A solid-solid phase transition at 127.282 K, two solid-liquid phase transitions at 153.612 and 160.584 K were observed, which correspond to the transition of metastable crystal to stable crystal of ethanol and the melting of ethanol and toluene, respectively. The thermodynamic functions and the excess ones of the mixture relative to the standard temperature 298.15 K were derived based on the relationships of the thermodynamic functions and the function of the measured heat capacity with respect to temperature.

关 键 词:热力学 乙醇 甲苯 共沸混合物 热容 超额热力学函数 绝热量热法
收稿时间:2004-07-14
修稿时间:2005-03-16

Thermodynamic Study on the Azeotropic Mixture Composed of Ethanol and Toluene
Nan Zhao‐Dong,Tan Zhi‐Cheng,Xing Jun. Thermodynamic Study on the Azeotropic Mixture Composed of Ethanol and Toluene[J]. Chinese Journal of Chemistry, 2005, 23(7): 823-828. DOI: 10.1002/cjoc.200590823
Authors:Nan Zhao‐Dong  Tan Zhi‐Cheng  Xing Jun
Abstract:The molar heat capacity of the azeotropic mixture composed of ethanol and toluene was measured by a high precision adiabatic calorimeter from 80 to 320 K. The glass transition and phase transitions of the azeotropic mixture were determined based on the heat capacity measurements. A glass transition at 103.350 K was found. A solid‐solid phase transition at 127.282 K, two solid‐liquid phase transitions at 153.612 and 160.584 K were observed, which correspond to the transition of metastable crystal to stable crystal of ethanol and the melting of ethanol and toluene, respectively. The thermodynamic functions and the excess ones of the mixture relative to the standard temperature 298.15 K were derived based on the relationships of the thermodynamic functions and the function of the measured heat capacity with respect to temperature.
Keywords:azeotropic mixture  ethanol  toluene  heat capacity  excess thermodynamic function  adiabatic calorimetry
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