Models for Estimation of Pure n-Alkanes' Thermodynamic Properties as a Function of Carbon Chain Length

Simple predictive relationships for the estimation of pure normal alkanes' thermodynamic properties, like transition temperatures, phase change enthalpies, and heat capacities in the solid or liquid state, are established as a function of carbon atom number n c, by combining our own calorimetri...

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Veröffentlicht in:	Journal of chemical and engineering data 2003-11, Vol.48 (6), p.1508-1516
Hauptverfasser:	Briard, Anne-Julie, Bouroukba, Mohammed, Petitjean, Dominique, Dirand, Michel
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical thermodynamics Chemistry Elements, mineral and organic compounds Exact sciences and technology General and physical chemistry Thermodynamic properties
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container_title	Journal of chemical and engineering data
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creator	Briard, Anne-Julie Bouroukba, Mohammed Petitjean, Dominique Dirand, Michel
description	Simple predictive relationships for the estimation of pure normal alkanes' thermodynamic properties, like transition temperatures, phase change enthalpies, and heat capacities in the solid or liquid state, are established as a function of carbon atom number n c, by combining our own calorimetric experimental results and a general review of literature data. This study underlines that total and melting enthalpies vary linearly with n c carbon atom number, whatever the parity of n c, while order−disorder transition enthalpies show a quadratic variation and an alternating effect between odd- and even-numbered n-alkanes. Heat capacity variations versus temperature and the carbon chain length were represented by a model of group contributions for the liquid phase and by an expression derived from Einstein's model for the solid state.
doi_str_mv	10.1021/je0301601
format	Article
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This study underlines that total and melting enthalpies vary linearly with n c carbon atom number, whatever the parity of n c, while order−disorder transition enthalpies show a quadratic variation and an alternating effect between odd- and even-numbered n-alkanes. 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Chem. Eng. Data</addtitle><description>Simple predictive relationships for the estimation of pure normal alkanes' thermodynamic properties, like transition temperatures, phase change enthalpies, and heat capacities in the solid or liquid state, are established as a function of carbon atom number n c, by combining our own calorimetric experimental results and a general review of literature data. This study underlines that total and melting enthalpies vary linearly with n c carbon atom number, whatever the parity of n c, while order−disorder transition enthalpies show a quadratic variation and an alternating effect between odd- and even-numbered n-alkanes. 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subjects	Chemical thermodynamics Chemistry Elements, mineral and organic compounds Exact sciences and technology General and physical chemistry Thermodynamic properties
title	Models for Estimation of Pure n-Alkanes' Thermodynamic Properties as a Function of Carbon Chain Length
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