The Experts below are selected from a list of 318 Experts worldwide ranked by ideXlab platform
Jean-luc Daridon - One of the best experts on this subject based on the ideXlab platform.
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Solid−Liquid Equilibria under High Pressure of Nine Pure n-Alkylbenzenes
Journal of Chemical and Engineering Data, 2007Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, Jean-luc DaridonAbstract:The melting temperatures of nine n-alkylbenzenes (undecylbenzene, dodecylbenzene, tridecylbenzene, tetradecylbenzene, pentadecylbenzene, hexadecylbenzene, heptadecylbenzene, octadecylbenzene, and nonadecylbenzene) were measured by means of a high-pressure microscope up to 100 MPa. The experimental device used in this work allowed the distinction between stable and metastable Solid Phases. The influences of the alkyl chain length and pressure on the melting temperatures of the stable Solid Phases are discussed.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, M. Dirand, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a (T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
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liquid Solid equilibria under high pressure of tetradecane pentadecane and tetradecane hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
Michel Milhet - One of the best experts on this subject based on the ideXlab platform.
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Solid−Liquid Equilibria under High Pressure of Nine Pure n-Alkylbenzenes
Journal of Chemical and Engineering Data, 2007Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, Jean-luc DaridonAbstract:The melting temperatures of nine n-alkylbenzenes (undecylbenzene, dodecylbenzene, tridecylbenzene, tetradecylbenzene, pentadecylbenzene, hexadecylbenzene, heptadecylbenzene, octadecylbenzene, and nonadecylbenzene) were measured by means of a high-pressure microscope up to 100 MPa. The experimental device used in this work allowed the distinction between stable and metastable Solid Phases. The influences of the alkyl chain length and pressure on the melting temperatures of the stable Solid Phases are discussed.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, M. Dirand, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a (T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
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liquid Solid equilibria under high pressure of tetradecane pentadecane and tetradecane hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
Jérôme Pauly - One of the best experts on this subject based on the ideXlab platform.
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Solid−Liquid Equilibria under High Pressure of Nine Pure n-Alkylbenzenes
Journal of Chemical and Engineering Data, 2007Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, Jean-luc DaridonAbstract:The melting temperatures of nine n-alkylbenzenes (undecylbenzene, dodecylbenzene, tridecylbenzene, tetradecylbenzene, pentadecylbenzene, hexadecylbenzene, heptadecylbenzene, octadecylbenzene, and nonadecylbenzene) were measured by means of a high-pressure microscope up to 100 MPa. The experimental device used in this work allowed the distinction between stable and metastable Solid Phases. The influences of the alkyl chain length and pressure on the melting temperatures of the stable Solid Phases are discussed.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, M. Dirand, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a (T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
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liquid Solid equilibria under high pressure of tetradecane pentadecane and tetradecane hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
M. Dirand - One of the best experts on this subject based on the ideXlab platform.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, J. Coutinho, M. Dirand, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a (T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
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liquid Solid equilibria under high pressure of tetradecane pentadecane and tetradecane hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
João A. P. Coutinho - One of the best experts on this subject based on the ideXlab platform.
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Liquid–Solid equilibria under high pressure of tetradecane + pentadecane and tetradecane + hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
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liquid Solid equilibria under high pressure of tetradecane pentadecane and tetradecane hexadecane binary systems
Fluid Phase Equilibria, 2005Co-Authors: Michel Milhet, Jérôme Pauly, M. Dirand, João A. P. Coutinho, Jean-luc DaridonAbstract:The crystallization temperatures of two binary systems – tetradecane + hexadecane and tetradecane + pentadecane – were measured under high pressure up to 100 MPa using a polar microscopy device. The slopes of the melting curves in the (T, P) diagram show a dependence on the nature of the different Solid Phases that can appear. The effect of pressure on the liquidus curve in a ( T, x) diagram is discussed and represented in the last part of this work with an excess Gibbs energy model, slightly modified to take the different Solid Phases into account. © 2005 Elsevier B.V. All rights reserved.
