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Jean-noël Jaubert - One of the best experts on this subject based on the ideXlab platform.
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Application of the Corresponding-State Law to the Parametrization of Statistical Associating Fluid Theory (SAFT)-Type Models: Generation and Use of “Generalized Charts”
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the knowledge of three component-specific properties is a prerequisite to apply an EoS to a given pure species. Here, the methodology used to attribute values to EoS parameters is called “parameterization procedure”. In this Article, it is shown that generalized charts, derived from the corresponding-State theory, can be used advantageously to parametrize SAFT models. SAFT EoS is a well-established class of models frequently used for process simulation. Depending on the EoS parameter set selected, most of SAFT EoS are likely to predict unrealistic phenomena (mainly, the presence of multiple critical points and three-fluid phase equilibrium regions in pure-component phase diagrams). Generalized charts can be used to detect whether such unrealistic phenomena affect pure-component phase diagrams in the temperature and pres...
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application of the corresponding State Law to the parametrization of statistical associating fluid theory saft type models generation and use of generalized charts
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the know...
Romain Privat - One of the best experts on this subject based on the ideXlab platform.
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Application of the Corresponding-State Law to the Parametrization of Statistical Associating Fluid Theory (SAFT)-Type Models: Generation and Use of “Generalized Charts”
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the knowledge of three component-specific properties is a prerequisite to apply an EoS to a given pure species. Here, the methodology used to attribute values to EoS parameters is called “parameterization procedure”. In this Article, it is shown that generalized charts, derived from the corresponding-State theory, can be used advantageously to parametrize SAFT models. SAFT EoS is a well-established class of models frequently used for process simulation. Depending on the EoS parameter set selected, most of SAFT EoS are likely to predict unrealistic phenomena (mainly, the presence of multiple critical points and three-fluid phase equilibrium regions in pure-component phase diagrams). Generalized charts can be used to detect whether such unrealistic phenomena affect pure-component phase diagrams in the temperature and pres...
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application of the corresponding State Law to the parametrization of statistical associating fluid theory saft type models generation and use of generalized charts
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the know...
Edouard Moine - One of the best experts on this subject based on the ideXlab platform.
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Application of the Corresponding-State Law to the Parametrization of Statistical Associating Fluid Theory (SAFT)-Type Models: Generation and Use of “Generalized Charts”
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the knowledge of three component-specific properties is a prerequisite to apply an EoS to a given pure species. Here, the methodology used to attribute values to EoS parameters is called “parameterization procedure”. In this Article, it is shown that generalized charts, derived from the corresponding-State theory, can be used advantageously to parametrize SAFT models. SAFT EoS is a well-established class of models frequently used for process simulation. Depending on the EoS parameter set selected, most of SAFT EoS are likely to predict unrealistic phenomena (mainly, the presence of multiple critical points and three-fluid phase equilibrium regions in pure-component phase diagrams). Generalized charts can be used to detect whether such unrealistic phenomena affect pure-component phase diagrams in the temperature and pres...
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application of the corresponding State Law to the parametrization of statistical associating fluid theory saft type models generation and use of generalized charts
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the know...
Baptiste Sirjean - One of the best experts on this subject based on the ideXlab platform.
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Application of the Corresponding-State Law to the Parametrization of Statistical Associating Fluid Theory (SAFT)-Type Models: Generation and Use of “Generalized Charts”
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the knowledge of three component-specific properties is a prerequisite to apply an EoS to a given pure species. Here, the methodology used to attribute values to EoS parameters is called “parameterization procedure”. In this Article, it is shown that generalized charts, derived from the corresponding-State theory, can be used advantageously to parametrize SAFT models. SAFT EoS is a well-established class of models frequently used for process simulation. Depending on the EoS parameter set selected, most of SAFT EoS are likely to predict unrealistic phenomena (mainly, the presence of multiple critical points and three-fluid phase equilibrium regions in pure-component phase diagrams). Generalized charts can be used to detect whether such unrealistic phenomena affect pure-component phase diagrams in the temperature and pres...
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application of the corresponding State Law to the parametrization of statistical associating fluid theory saft type models generation and use of generalized charts
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the know...
Rafiqul Gani - One of the best experts on this subject based on the ideXlab platform.
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Application of the Corresponding-State Law to the Parametrization of Statistical Associating Fluid Theory (SAFT)-Type Models: Generation and Use of “Generalized Charts”
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the knowledge of three component-specific properties is a prerequisite to apply an EoS to a given pure species. Here, the methodology used to attribute values to EoS parameters is called “parameterization procedure”. In this Article, it is shown that generalized charts, derived from the corresponding-State theory, can be used advantageously to parametrize SAFT models. SAFT EoS is a well-established class of models frequently used for process simulation. Depending on the EoS parameter set selected, most of SAFT EoS are likely to predict unrealistic phenomena (mainly, the presence of multiple critical points and three-fluid phase equilibrium regions in pure-component phase diagrams). Generalized charts can be used to detect whether such unrealistic phenomena affect pure-component phase diagrams in the temperature and pres...
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application of the corresponding State Law to the parametrization of statistical associating fluid theory saft type models generation and use of generalized charts
Industrial & Engineering Chemistry Research, 2019Co-Authors: Romain Privat, Edouard Moine, Baptiste Sirjean, Rafiqul Gani, Jean-noël JaubertAbstract:Most of the Statistical Associating Fluid Theory (SAFT) and cubic equations of State (EoS) for nonassociating pure components obey the three-parameter corresponding-State Law, meaning that the know...