Verfügbarkeit: Understanding non-equilibrium thermodynamics

Understanding non-equilibrium thermodynamics: foundations, applications, frontiers

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Bibliographische Detailangaben
Hauptverfasser:	Lebon, Georgy (VerfasserIn), Jou, David 1953- (VerfasserIn), Casas-Vázquez, José 1938- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2008
Schlagworte:	Nonequilibrium thermodynamics Nichtgleichgewichtsthermodynamik
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XIII, 325 S. Ill., graph. Darst.
ISBN:	9783540742517

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adam_text	Contents Equilibrium Thermodynamics: A Review ................. 1 1.1 The Early History ...................................... 1 1.2 Scope and Definitions ................................... 3 1.3 The Fundamental Laws ................................. 5 1.3.1 The Zeroth Law .................................. 5 1.3.2 The First Law or Energy Balance .................. 6 1.3.3 The Second Law ................................. 8 1.3.4 The Third Law .................................. 14 1.4 Gibbs Equation ........................................ 14 1.4.1 Fundamental Relations and State Equations ......... 15 1.4.2 Euler s Relation .................................. 16 1.4.3 Gibbs-Duhem s Relation .......................... 16 1.4.4 Some Definitions ................................. 17 1.4.5 The Basic Problem of Equilibrium Thermodynamics .. 18 1.5 Legendre Transformations and Thermodynamic Potentials ... 19 1.5.1 Thermodynamic Potentials ........................ 20 1.5.2 Thermodynamic Potentials and Extrémům Principles . 21 1.6 Stability of Equilibrium States ........................... 24 1.6.1 Stability of Single Component Systems .............. 24 1.6.2 Stability Conditions for the Other Thermodynamic Potentials ....................................... 27 1.6.3 Stability Criterion of Multi-Component Mixtures ..... 27 1.7 Equilibrium Chemical Thermodynamics ................... 29 1.7.1 General Equilibrium Conditions .................... 30 1.7.2 Heat of Reaction and van t Hoff Relation ............ 31 1.7.3 Stability of Chemical Equilibrium and Le Chatelier s Principle ........................................ 32 1.8 Final Comments ........................................ 34 1.9 Problems .............................................. 34 IX Contents Classical Irreversible Thermodynamics ................... 37 2.1 Basic Concepts ......................................... 38 2.2 Local Equilibrium Hypothesis ............................ 39 2.3 Entropy Balance ....................................... 41 2.4 General Theory ........................................ 44 2.5 Stationary States ....................................... 50 2.5.1 Minimum Entropy Production Principle ............. 51 2.6 Applications to Heat Conduction, Mass Transport, and Fluid Flows ........................................ 54 2.6.1 Heat Conduction in a Rigid Body .................. 54 2.6.2 Matter Diffusion Under Isothermal and Isobaric Conditions ...................................... 59 2.6.3 Hydrodynamics .................................. 60 2.7 Limitations of the Classical Theory of Irreversible Thermodynamics ....................................... 63 2.8 Problems .............................................. 65 Coupled Transport Phenomena ........................... 69 3.1 Electrical Conduction ................................... 70 3.2 Thermoelectric Effects .................................. 72 3.2.1 Phenomenological Laws ........................... 72 3.2.2 Efficiency of Thermoelectric Generators ............. 76 3.3 Thermodiffusion: Coupling of Heat and Mass Transport ..... 79 3.4 Diffusion Through a Membrane .......................... 83 3.4.1 Entropy Production .............................. 83 3.4.2 Phenomenological Relations ....................... 85 3.5 Problems .............................................. 87 Chemical Reactions and Molecular Machines ............. 91 4.1 One Single Chemical Reaction ........................... 92 4.2 Coupled Chemical Reactions ............................. 96 4.2.1 General Formalism ............................... 96 4.2.2 Cyclical Chemical Reactions and Onsager s Reciprocal Relations .............................. 97 4.3 Efficiency of Energy Transfer .............................100 4.4 Chemical Reactions and Mass Transport: Molecular Machines .....................................102 4.5 Autocatalytic Reactions and Diffusion: Morphogenesis ......108 4.6 Problems ..............................................109 Finite-Time Thermodynamics ............................113 5.1 The Finite-Time Carnot Cycle ...........................114 5.1.1 Curzon- Ahlborn s Model: Heat Losses ..............115 5.1.2 Friction Losses ...................................120 5.2 Economical and Ecological Constraints ....................122 Contents ут 5.3 Earth s Atmosphere as a Non-Equilibrium System and a Heat Engine ......................................125 5.3.1 Earth s Energy Balance ...........................125 5.3.2 Global Warming .................................126 5.3.3 Transformation of Solar Heat into Wind Motion ......128 5.4 Problems ..............................................130 6 Instabilities and Pattern Formation .......................135 6.1 The Linear Theory of Stability ...........................137 6.2 Non-Linear Approaches .................................138 6.3 Thermal Convection ....................................143 6.3.1 The Rayleigh-Bénarďs Instability: A Linear Theory . . 145 6.3.2 The Rayleigh-Bénarďs Instability: A Non-Linear Theory .............................152 6.3.3 Bénard-Marangoni s Surface Tension-Driven Instability .......................................154 6.4 Taylor s Instability .....................................158 6.5 Chemical Instabilities ...................................162 6.5.1 Temporal Organization in Spatially Homogeneous Systems .........................................163 6.5.2 Spatial Organization in Spatially Heterogeneous Systems .........................................167 6.5.3 Spatio-Temporal Patterns in Heterogeneous Systems: Turing Structures ................................167 6.6 Miscellaneous Examples of Pattern Formation ..............169 6.6.1 Salt Fingers .....................................169 6.6.2 Patterns in Electricity ............................171 6.6.3 Dendritic Pattern Formation .......................172 6.7 Problems ..............................................174 7 Extended Irreversible Thermodynamics ...................179 7.1 Heat Conduction .......................................181 7.1.1 Fourier s vs. Cattaneo s Law .......................181 7.1.2 Extended Entropy ................................189 7.1.3 Non-Local Terms: From Collision-Dominated Regime to Ballistic Regime ...............................191 7.1.4 Application to Steady Heat Transport in Nano-Systems .................................195 7.2 One-Component Viscous Heat Conducting Fluids ...........196 7.3 Rheological Fluids ...................................... 200 7.4 Microelectronic Devices .................................202 7.5 Final Comments and Perspectives ........................205 7.6 Problems .............................................. 209 XII Contents 8 Theories with Internal Variables ..........................215 8.1 General Scheme ........................................216 8.1.1 Accompanying State Axiom .......................216 8.1.2 Entropy and Entropy Production ...................219 8.1.3 Rate Equations ..................................220 8.2 Applications ...........................................221 8.2.1 Viscoelastic Solids ................................221 8.2.2 Polymeric Fluids .................................224 8.2.3 Colloidal Suspensions .............................227 8.3 Final Comments and Comparison with Other Theories ......232 8.4 Problems ..............................................234 9 Rational Thermodynamics ................................237 9.1 General Structure ......................................238 9.2 The Axioms of Rational Thermodynamics .................238 9.2.1 Axiom of Admissibility and Clausius-Duhem s Inequality .......................................239 9.2.2 Axiom of Memory ................................240 9.2.3 Axiom of Equipresence ............................241 9.2.4 Axiom of Local Action ............................241 9.2.5 Axiom of Material Frame-Indifference ...............242 9.3 Application to Thermoelastic Materials ...................243 9.4 Viscous Heat Conducting Fluids ..........................247 9.5 Comments and Critical Analysis ..........................249 9.5.1 The Clausius-Duhem s Inequality ..................249 9.5.2 Axiom of Phlogiston ..............................249 9.5.3 The Meaning of Temperature and Entropy ..........250 9.5.4 Axiom of Frame-Indifference .......................251 9.5.5 The Entropy Flux Axiom ..........................252 9.5.6 The Axiom of Equipresence ........................252 9.6 Problems ..............................................257 10 Hamiltonian Formalisms ..................................261 10.1 Classical Mechanics .....................................262 10.2 Formulation of GENERIC ...............................264 10.2.1 Classical Navier-Stokes Hydrodynamics ............266 10.2.2 Fickian Diffusion in Binary Mixtures ................270 10.2.3 Non-Fickian Diffusion in Binary Mixtures ...........273 10.3 Final Comments ........................................274 10.4 Problems ..............................................278 11 Mesoscopic Thermodynamic Descriptions .................279 11.1 Einstein s Formula: Second Moments of Equilibrium Fluctuations ..............................279 11.2 Derivation of the Onsager-Casimir s Reciprocal Relations ___282 Contents XIII 11.3 Fluctuation-Dissipation Theorem.........................285 11.4 Keizer s Theory: Fluctuations in Non-Equilibrium Steady States.................................................288 11.4.1 Dynamics of Fluctuations .........................288 11.4.2 A Non-Equilibrium Entropy .......................289 11.5 Mesoscopic Non-Equilibrium Thermodynamics .............292 11.5.1 Brownian Motion with Inertia ......................293 11.5.2 Other Applications ...............................296 11.6 Problems ..............................................299 Epilogue ......................................................303 References ....................................................307 Further Readings .............................................319 Index .........................................................321
adam_txt	Contents Equilibrium Thermodynamics: A Review . 1 1.1 The Early History . 1 1.2 Scope and Definitions . 3 1.3 The Fundamental Laws . 5 1.3.1 The Zeroth Law . 5 1.3.2 The First Law or Energy Balance . 6 1.3.3 The Second Law . 8 1.3.4 The Third Law . 14 1.4 Gibbs' Equation . 14 1.4.1 Fundamental Relations and State Equations . 15 1.4.2 Euler's Relation . 16 1.4.3 Gibbs-Duhem's Relation . 16 1.4.4 Some Definitions . 17 1.4.5 The Basic Problem of Equilibrium Thermodynamics . 18 1.5 Legendre Transformations and Thermodynamic Potentials . 19 1.5.1 Thermodynamic Potentials . 20 1.5.2 Thermodynamic Potentials and Extrémům Principles . 21 1.6 Stability of Equilibrium States . 24 1.6.1 Stability of Single Component Systems . 24 1.6.2 Stability Conditions for the Other Thermodynamic Potentials . 27 1.6.3 Stability Criterion of Multi-Component Mixtures . 27 1.7 Equilibrium Chemical Thermodynamics . 29 1.7.1 General Equilibrium Conditions . 30 1.7.2 Heat of Reaction and van't Hoff Relation . 31 1.7.3 Stability of Chemical Equilibrium and Le Chatelier's Principle . 32 1.8 Final Comments . 34 1.9 Problems . 34 IX Contents Classical Irreversible Thermodynamics . 37 2.1 Basic Concepts . 38 2.2 Local Equilibrium Hypothesis . 39 2.3 Entropy Balance . 41 2.4 General Theory . 44 2.5 Stationary States . 50 2.5.1 Minimum Entropy Production Principle . 51 2.6 Applications to Heat Conduction, Mass Transport, and Fluid Flows . 54 2.6.1 Heat Conduction in a Rigid Body . 54 2.6.2 Matter Diffusion Under Isothermal and Isobaric Conditions . 59 2.6.3 Hydrodynamics . 60 2.7 Limitations of the Classical Theory of Irreversible Thermodynamics . 63 2.8 Problems . 65 Coupled Transport Phenomena . 69 3.1 Electrical Conduction . 70 3.2 Thermoelectric Effects . 72 3.2.1 Phenomenological Laws . 72 3.2.2 Efficiency of Thermoelectric Generators . 76 3.3 Thermodiffusion: Coupling of Heat and Mass Transport . 79 3.4 Diffusion Through a Membrane . 83 3.4.1 Entropy Production . 83 3.4.2 Phenomenological Relations . 85 3.5 Problems . 87 Chemical Reactions and Molecular Machines . 91 4.1 One Single Chemical Reaction . 92 4.2 Coupled Chemical Reactions . 96 4.2.1 General Formalism . 96 4.2.2 Cyclical Chemical Reactions and Onsager's Reciprocal Relations . 97 4.3 Efficiency of Energy Transfer .100 4.4 Chemical Reactions and Mass Transport: Molecular Machines .102 4.5 Autocatalytic Reactions and Diffusion: Morphogenesis .108 4.6 Problems .109 Finite-Time Thermodynamics .113 5.1 The Finite-Time Carnot Cycle .114 5.1.1 Curzon- Ahlborn's Model: Heat Losses .115 5.1.2 Friction Losses .120 5.2 Economical and Ecological Constraints .122 Contents ут 5.3 Earth's Atmosphere as a Non-Equilibrium System and a Heat Engine .125 5.3.1 Earth's Energy Balance .125 5.3.2 Global Warming .126 5.3.3 Transformation of Solar Heat into Wind Motion .128 5.4 Problems .130 6 Instabilities and Pattern Formation .135 6.1 The Linear Theory of Stability .137 6.2 Non-Linear Approaches .138 6.3 Thermal Convection .143 6.3.1 The Rayleigh-Bénarďs Instability: A Linear Theory . . 145 6.3.2 The Rayleigh-Bénarďs Instability: A Non-Linear Theory .152 6.3.3 Bénard-Marangoni's Surface Tension-Driven Instability .154 6.4 Taylor's Instability .158 6.5 Chemical Instabilities .162 6.5.1 Temporal Organization in Spatially Homogeneous Systems .163 6.5.2 Spatial Organization in Spatially Heterogeneous Systems .167 6.5.3 Spatio-Temporal Patterns in Heterogeneous Systems: Turing Structures .167 6.6 Miscellaneous Examples of Pattern Formation .169 6.6.1 Salt Fingers .169 6.6.2 Patterns in Electricity .171 6.6.3 Dendritic Pattern Formation .172 6.7 Problems .174 7 Extended Irreversible Thermodynamics .179 7.1 Heat Conduction .181 7.1.1 Fourier's vs. Cattaneo's Law .181 7.1.2 Extended Entropy .189 7.1.3 Non-Local Terms: From Collision-Dominated Regime to Ballistic Regime .191 7.1.4 Application to Steady Heat Transport in Nano-Systems .195 7.2 One-Component Viscous Heat Conducting Fluids .196 7.3 Rheological Fluids . 200 7.4 Microelectronic Devices .202 7.5 Final Comments and Perspectives .205 7.6 Problems . 209 XII Contents 8 Theories with Internal Variables .215 8.1 General Scheme .216 8.1.1 Accompanying State Axiom .216 8.1.2 Entropy and Entropy Production .219 8.1.3 Rate Equations .220 8.2 Applications .221 8.2.1 Viscoelastic Solids .221 8.2.2 Polymeric Fluids .224 8.2.3 Colloidal Suspensions .227 8.3 Final Comments and Comparison with Other Theories .232 8.4 Problems .234 9 Rational Thermodynamics .237 9.1 General Structure .238 9.2 The Axioms of Rational Thermodynamics .238 9.2.1 Axiom of Admissibility and Clausius-Duhem's Inequality .239 9.2.2 Axiom of Memory .240 9.2.3 Axiom of Equipresence .241 9.2.4 Axiom of Local Action .241 9.2.5 Axiom of Material Frame-Indifference .242 9.3 Application to Thermoelastic Materials .243 9.4 Viscous Heat Conducting Fluids .247 9.5 Comments and Critical Analysis .249 9.5.1 The Clausius-Duhem's Inequality .249 9.5.2 Axiom of Phlogiston .249 9.5.3 The Meaning of Temperature and Entropy .250 9.5.4 Axiom of Frame-Indifference .251 9.5.5 The Entropy Flux Axiom .252 9.5.6 The Axiom of Equipresence .252 9.6 Problems .257 10 Hamiltonian Formalisms .261 10.1 Classical Mechanics .262 10.2 Formulation of GENERIC .264 10.2.1 Classical Navier-Stokes' Hydrodynamics .266 10.2.2 Fickian Diffusion in Binary Mixtures .270 10.2.3 Non-Fickian Diffusion in Binary Mixtures .273 10.3 Final Comments .274 10.4 Problems .278 11 Mesoscopic Thermodynamic Descriptions .279 11.1 Einstein's Formula: Second Moments of Equilibrium Fluctuations .279 11.2 Derivation of the Onsager-Casimir's Reciprocal Relations _282 Contents XIII 11.3 Fluctuation-Dissipation Theorem.285 11.4 Keizer's Theory: Fluctuations in Non-Equilibrium Steady States.288 11.4.1 Dynamics of Fluctuations .288 11.4.2 A Non-Equilibrium Entropy .289 11.5 Mesoscopic Non-Equilibrium Thermodynamics .292 11.5.1 Brownian Motion with Inertia .293 11.5.2 Other Applications .296 11.6 Problems .299 Epilogue .303 References .307 Further Readings .319 Index .321
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spelling	Lebon, Georgy Verfasser aut Understanding non-equilibrium thermodynamics foundations, applications, frontiers G. Lebon ; D. Jou ; J. Casas-Vázquez Berlin [u.a.] Springer 2008 XIII, 325 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Nonequilibrium thermodynamics Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd rswk-swf Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 s DE-604 Jou, David 1953- Verfasser (DE-588)129374679 aut Casas-Vázquez, José 1938- Verfasser (DE-588)134136551 aut Erscheint auch als Online-Ausgabe 978-3-540-74252-4 http://d-nb.info/985090197/04 Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016471785&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lebon, Georgy Jou, David 1953- Casas-Vázquez, José 1938- Understanding non-equilibrium thermodynamics foundations, applications, frontiers Nonequilibrium thermodynamics Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd
subject_GND	(DE-588)4130850-5
title	Understanding non-equilibrium thermodynamics foundations, applications, frontiers
title_auth	Understanding non-equilibrium thermodynamics foundations, applications, frontiers
title_exact_search	Understanding non-equilibrium thermodynamics foundations, applications, frontiers
title_exact_search_txtP	Understanding non-equilibrium thermodynamics foundations, applications, frontiers
title_full	Understanding non-equilibrium thermodynamics foundations, applications, frontiers G. Lebon ; D. Jou ; J. Casas-Vázquez
title_fullStr	Understanding non-equilibrium thermodynamics foundations, applications, frontiers G. Lebon ; D. Jou ; J. Casas-Vázquez
title_full_unstemmed	Understanding non-equilibrium thermodynamics foundations, applications, frontiers G. Lebon ; D. Jou ; J. Casas-Vázquez
title_short	Understanding non-equilibrium thermodynamics
title_sort	understanding non equilibrium thermodynamics foundations applications frontiers
title_sub	foundations, applications, frontiers
topic	Nonequilibrium thermodynamics Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd
topic_facet	Nonequilibrium thermodynamics Nichtgleichgewichtsthermodynamik
url	http://d-nb.info/985090197/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016471785&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lebongeorgy understandingnonequilibriumthermodynamicsfoundationsapplicationsfrontiers AT joudavid understandingnonequilibriumthermodynamicsfoundationsapplicationsfrontiers AT casasvazquezjose understandingnonequilibriumthermodynamicsfoundationsapplicationsfrontiers

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