Verfügbarkeit: Mechanical and thermodynamical modeling of fluid interfaces /

Mechanical and thermodynamical modeling of fluid interfaces /:

This book constitutes a comprehensive survey of the balance equations for mass, momentum and energy for the interfaces in pure fluids and mixtures. Constitutive laws are presented for many situations in engineering science, and examples are provided, including surface viscosity effects, variable sur...

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Bibliographische Detailangaben
1. Verfasser:	Gatignol, Renée
Weitere Verfasser:	Prud'homme, Roger
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; River Edge, N.J. : World Scientific, 2001.
Schriftenreihe:	Series on advances in mathematics for applied sciences ; v. 58.
Schlagworte:	Liquid-liquid interfaces > Mathematical models. Gas-liquid interfaces > Mathematical models. Interfaces (Physical sciences) > Thermodynamics > Mathematical models. Interfaces liquide-liquide > Modèles mathématiques. Interfaces gaz-liquide > Modèles mathématiques. Interfaces (Sciences physiques) > Thermodynamique > Modèles mathématiques. SCIENCE > Chemistry > Physical & Theoretical. Thermodynamics
Online-Zugang:	Volltext
Zusammenfassung:	This book constitutes a comprehensive survey of the balance equations for mass, momentum and energy for the interfaces in pure fluids and mixtures. Constitutive laws are presented for many situations in engineering science, and examples are provided, including surface viscosity effects, variable surface tension and vapor recoil. In addition, some extensions of existing theory are given: stretch effect in premixed flames, relaxation zones downstream two-phase shock waves, and effective surface tension for steep gradient zones.
Beschreibung:	1 online resource (xviii, 248 pages) : illustrations
Bibliographie:	Includes bibliographical references (pages 239-248).
ISBN:	9789812810625 9812810625

Internformat

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520			\|a This book constitutes a comprehensive survey of the balance equations for mass, momentum and energy for the interfaces in pure fluids and mixtures. Constitutive laws are presented for many situations in engineering science, and examples are provided, including surface viscosity effects, variable surface tension and vapor recoil. In addition, some extensions of existing theory are given: stretch effect in premixed flames, relaxation zones downstream two-phase shock waves, and effective surface tension for steep gradient zones.
650		0	\|a Liquid-liquid interfaces \|x Mathematical models.
650		0	\|a Gas-liquid interfaces \|x Mathematical models.
650		0	\|a Interfaces (Physical sciences) \|x Thermodynamics \|x Mathematical models.
650		6	\|a Interfaces liquide-liquide \|x Modèles mathématiques.
650		6	\|a Interfaces gaz-liquide \|x Modèles mathématiques.
650		6	\|a Interfaces (Sciences physiques) \|x Thermodynamique \|x Modèles mathématiques.
650		7	\|a SCIENCE \|x Chemistry \|x Physical & Theoretical. \|2 bisacsh
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contents	1. Introduction. 1.1. The concept of an "interface". 1.2. The concept of an "interfacial layer". 1.3. Presentation of the volume -- 2. Thermodynamics and kinematics of interfaces. 2.1. Definition of surfaces. 2.2. Interfacial quantities. 2.3. Thermodynamic relations. 2.4. Velocities and deformation rates of the interface. 2.5. Examples -- 3. Interface balance laws. 3.1. General interface balance law. 3.2. Interface balance laws for species, mass, momentum and energy. 3.3. Interfacial entropy production -- 4. Constitutive relations deduced from linear irreversible thermodynamics for the two-dimensional interfaces. 4.1. Analysis of the surface entropy production and possible coupling. 4.2. Capillarity at equilibrium. 4.3. Newtonian interface and surface viscosities. 4.4. Surface heat transfer. 4.5. Problems related to evaporation / condensation. 4.6. Surface chemical reactions. 4.7. Interfaces without mass -- 5. Classical three-dimensional constitutive relations deduced from linear irreversible thermodynamics and their consequences for interfaces. 5.1. Constitutive relations of three-dimensional classical fluid mixtures. 5.2. The case of premixed flames with high activation energy. 5.3. The case of shock waves and relaxation zones behind shock waves -- 6. Second gradient theory applied to interfacial medium. 6.1. Description of a fluid with internal capillarity. 6.2. A set of equations for a fluid with capillarity. 6.3. Asymptotic modelization of an interface without mass. 6.4. An expression for the surface tension. 6.5. Description of a mixture of fluids with internal capillarity -- 7. Typical problems involving surface tension and other surface properties. 7.1. The growth of a bubble. 7.2. An interface with a surface viscosity. 7.3. An interface with a variable surface tension. 7.4. Marangoni instability. 7.5. Vapor recoil. 7.6. Diffusive interfaces.
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series	Series on advances in mathematics for applied sciences ;
series2	Series on advances in mathematics for applied sciences ;
spelling	Gatignol, Renée. https://id.oclc.org/worldcat/entity/E39PCjqBMBwQ8hmjqBFkffwW8P http://id.loc.gov/authorities/names/n90726811 Mechanical and thermodynamical modeling of fluid interfaces / Renée Gatignol, Roger Prud'homme. Singapore ; River Edge, N.J. : World Scientific, 2001. 1 online resource (xviii, 248 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Series on advances in mathematics for applied sciences ; v. 58 Includes bibliographical references (pages 239-248). Print version record. 1. Introduction. 1.1. The concept of an "interface". 1.2. The concept of an "interfacial layer". 1.3. Presentation of the volume -- 2. Thermodynamics and kinematics of interfaces. 2.1. Definition of surfaces. 2.2. Interfacial quantities. 2.3. Thermodynamic relations. 2.4. Velocities and deformation rates of the interface. 2.5. Examples -- 3. Interface balance laws. 3.1. General interface balance law. 3.2. Interface balance laws for species, mass, momentum and energy. 3.3. Interfacial entropy production -- 4. Constitutive relations deduced from linear irreversible thermodynamics for the two-dimensional interfaces. 4.1. Analysis of the surface entropy production and possible coupling. 4.2. Capillarity at equilibrium. 4.3. Newtonian interface and surface viscosities. 4.4. Surface heat transfer. 4.5. Problems related to evaporation / condensation. 4.6. Surface chemical reactions. 4.7. Interfaces without mass -- 5. Classical three-dimensional constitutive relations deduced from linear irreversible thermodynamics and their consequences for interfaces. 5.1. Constitutive relations of three-dimensional classical fluid mixtures. 5.2. The case of premixed flames with high activation energy. 5.3. The case of shock waves and relaxation zones behind shock waves -- 6. Second gradient theory applied to interfacial medium. 6.1. Description of a fluid with internal capillarity. 6.2. A set of equations for a fluid with capillarity. 6.3. Asymptotic modelization of an interface without mass. 6.4. An expression for the surface tension. 6.5. Description of a mixture of fluids with internal capillarity -- 7. Typical problems involving surface tension and other surface properties. 7.1. The growth of a bubble. 7.2. An interface with a surface viscosity. 7.3. An interface with a variable surface tension. 7.4. Marangoni instability. 7.5. Vapor recoil. 7.6. Diffusive interfaces. This book constitutes a comprehensive survey of the balance equations for mass, momentum and energy for the interfaces in pure fluids and mixtures. Constitutive laws are presented for many situations in engineering science, and examples are provided, including surface viscosity effects, variable surface tension and vapor recoil. In addition, some extensions of existing theory are given: stretch effect in premixed flames, relaxation zones downstream two-phase shock waves, and effective surface tension for steep gradient zones. Liquid-liquid interfaces Mathematical models. Gas-liquid interfaces Mathematical models. Interfaces (Physical sciences) Thermodynamics Mathematical models. Interfaces liquide-liquide Modèles mathématiques. Interfaces gaz-liquide Modèles mathématiques. Interfaces (Sciences physiques) Thermodynamique Modèles mathématiques. SCIENCE Chemistry Physical & Theoretical. bisacsh Thermodynamics fast Prud'homme, Roger. https://id.oclc.org/worldcat/entity/E39PBJjmRW9mqWBD9PqXr6RVG3 http://id.loc.gov/authorities/names/n88651656 has work: Mechanical and thermodynamical modeling of fluid interfaces (Text) https://id.oclc.org/worldcat/entity/E39PCGTJtqw4PvQgFMkQCTQtjy https://id.oclc.org/worldcat/ontology/hasWork Print version: Gatignol, Renée. Mechanical and thermodynamical modeling of fluid interfaces. Singapore ; River Edge, N.J. : World Scientific, 2001 9810243057 9789810243050 (DLC) 2001026028 (OCoLC)46576669 Series on advances in mathematics for applied sciences ; v. 58. http://id.loc.gov/authorities/names/n90710999 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=235912 Volltext
spellingShingle	Gatignol, Renée Mechanical and thermodynamical modeling of fluid interfaces / Series on advances in mathematics for applied sciences ; 1. Introduction. 1.1. The concept of an "interface". 1.2. The concept of an "interfacial layer". 1.3. Presentation of the volume -- 2. Thermodynamics and kinematics of interfaces. 2.1. Definition of surfaces. 2.2. Interfacial quantities. 2.3. Thermodynamic relations. 2.4. Velocities and deformation rates of the interface. 2.5. Examples -- 3. Interface balance laws. 3.1. General interface balance law. 3.2. Interface balance laws for species, mass, momentum and energy. 3.3. Interfacial entropy production -- 4. Constitutive relations deduced from linear irreversible thermodynamics for the two-dimensional interfaces. 4.1. Analysis of the surface entropy production and possible coupling. 4.2. Capillarity at equilibrium. 4.3. Newtonian interface and surface viscosities. 4.4. Surface heat transfer. 4.5. Problems related to evaporation / condensation. 4.6. Surface chemical reactions. 4.7. Interfaces without mass -- 5. Classical three-dimensional constitutive relations deduced from linear irreversible thermodynamics and their consequences for interfaces. 5.1. Constitutive relations of three-dimensional classical fluid mixtures. 5.2. The case of premixed flames with high activation energy. 5.3. The case of shock waves and relaxation zones behind shock waves -- 6. Second gradient theory applied to interfacial medium. 6.1. Description of a fluid with internal capillarity. 6.2. A set of equations for a fluid with capillarity. 6.3. Asymptotic modelization of an interface without mass. 6.4. An expression for the surface tension. 6.5. Description of a mixture of fluids with internal capillarity -- 7. Typical problems involving surface tension and other surface properties. 7.1. The growth of a bubble. 7.2. An interface with a surface viscosity. 7.3. An interface with a variable surface tension. 7.4. Marangoni instability. 7.5. Vapor recoil. 7.6. Diffusive interfaces. Liquid-liquid interfaces Mathematical models. Gas-liquid interfaces Mathematical models. Interfaces (Physical sciences) Thermodynamics Mathematical models. Interfaces liquide-liquide Modèles mathématiques. Interfaces gaz-liquide Modèles mathématiques. Interfaces (Sciences physiques) Thermodynamique Modèles mathématiques. SCIENCE Chemistry Physical & Theoretical. bisacsh Thermodynamics fast
title	Mechanical and thermodynamical modeling of fluid interfaces /
title_auth	Mechanical and thermodynamical modeling of fluid interfaces /
title_exact_search	Mechanical and thermodynamical modeling of fluid interfaces /
title_full	Mechanical and thermodynamical modeling of fluid interfaces / Renée Gatignol, Roger Prud'homme.
title_fullStr	Mechanical and thermodynamical modeling of fluid interfaces / Renée Gatignol, Roger Prud'homme.
title_full_unstemmed	Mechanical and thermodynamical modeling of fluid interfaces / Renée Gatignol, Roger Prud'homme.
title_short	Mechanical and thermodynamical modeling of fluid interfaces /
title_sort	mechanical and thermodynamical modeling of fluid interfaces
topic	Liquid-liquid interfaces Mathematical models. Gas-liquid interfaces Mathematical models. Interfaces (Physical sciences) Thermodynamics Mathematical models. Interfaces liquide-liquide Modèles mathématiques. Interfaces gaz-liquide Modèles mathématiques. Interfaces (Sciences physiques) Thermodynamique Modèles mathématiques. SCIENCE Chemistry Physical & Theoretical. bisacsh Thermodynamics fast
topic_facet	Liquid-liquid interfaces Mathematical models. Gas-liquid interfaces Mathematical models. Interfaces (Physical sciences) Thermodynamics Mathematical models. Interfaces liquide-liquide Modèles mathématiques. Interfaces gaz-liquide Modèles mathématiques. Interfaces (Sciences physiques) Thermodynamique Modèles mathématiques. SCIENCE Chemistry Physical & Theoretical. Thermodynamics
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=235912
work_keys_str_mv	AT gatignolrenee mechanicalandthermodynamicalmodelingoffluidinterfaces AT prudhommeroger mechanicalandthermodynamicalmodelingoffluidinterfaces

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