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Applied thermodynamics of fluids [[electronic resource] /] / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Applied thermodynamics of fluids [[electronic resource] /] / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Pubbl/distr/stampa Cambridge, : RSC Pub., c2010
Descrizione fisica 1 online resource (535 p.)
Disciplina 530.42
541.369
Altri autori (Persone) GoodwinA. R. H
SengersJ. V
PetersCor J
Soggetto topico Fluids - Thermal properties
Soggetto genere / forma Electronic books.
ISBN 1-62198-164-9
1-84973-098-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ; Machine generated contents note: ; ch. 1 Introduction / J. Peters -- References -- ; ch. 2 Fundamental Considerations / Cor J. Peters -- ; 2.1. Introduction -- ; 2.2. Basic Thermodynamics -- ; 2.2.1. Homogeneous Functions -- ; 2.2.2. Thermodynamic Properties from Differentiation of Fundamental Equations -- ; 2.3. Deviation Functions -- ; 2.3.1. Residual Functions -- ; 2.3.2. Evaluation of Residual Functions -- ; 2.4. Mixing and Departure Functions -- ; 2.4.1. Departure Functions with Temperature, Molar Volume and Composition as the Independent Variables -- ; 2.4.2. Departure Functions with Temperature, Pressure and Composition as the Independent Variables -- ; 2.5. Mixing and Excess Functions -- ; 2.6. Partial Molar Properties -- ; 2.7. Fugacity and Fugacity Coefficients -- ; 2.8. Activity Coefficients -- ; 2.9. The Phase Rule -- ; 2.10. Equilibrium Conditions -- ; 2.10.1. Phase Equilibria -- ; 2.10.2. Chemical Equilibria -- ; 2.11. Stability and the Critical State -- ; 2.11.1. Densities and Fields -- ; 2.11.2. Stability.
; 2.11.3. Critical State -- References -- ; ch. 3 The Virial Equation of State / J. P. Martin Trusler -- ; 3.1. Introduction -- ; 3.1.1. Temperature Dependence of the Virial Coefficients -- ; 3.1.2. Composition Dependence of the Virial Coefficients -- ; 3.1.3. Convergence of the Virial Series -- ; 3.1.4. The Pressure Series -- ; 3.2. Theoretical Background -- ; 3.2.1. Virial Coefficients of Hard-Core-Square-Well Molecules -- ; 3.3. Thermodynamic Properties of Gases -- ; 3.3.1. Perfect-gas and Residual Properties -- ; 3.3.2. Helmholtz Energy and Gibbs Energy -- ; 3.3.3. Perfect-Gas Properties -- ; 3.3.4. Residual Properties -- ; 3.4. Estimation of Second and Third Virial Coefficients -- ; 3.4.1. Application of Intermolecular Potential-energy Functions -- ; 3.4.2. Corresponding-states Methods -- References -- ; ch. 4 Cubic and Generalized van der Waals Equations of State / Ioannis G. Economou -- ; 4.1. Introduction -- ; 4.2. Cubic Equation of State Formulation -- ; 4.2.1. The van der Waals Equation of State (1873) -- ; 4.2.2. The Redlich and Kwong Equation of State (1949).
; 4.2.3. The Soave, Redlich and Kwong Equation of State (1972) -- ; 4.2.4. The Peng and Robinson Equation of State (1976) -- ; 4.2.5. The Patel and Teja (PT) Equation of State (1982) -- ; 4.2.6. The α Parameter -- ; 4.2.7. Volume Translation -- ; 4.2.8. The Elliott, Suresh and Donohue (ESD) Equation of State (1990) -- ; 4.2.9. Higher-Order Equations of State Rooted to the Cubic Equations of State -- ; 4.2.10. Extension of Cubic Equations of State to Mixtures -- ; 4.3. Applications -- ; 4.3.1. Pure Components -- ; 4.3.2. Oil and Gas Industry -- Hydrocarbons and Petroleum Fractions -- ; 4.3.3. Chemical Industry -- Polar and Hydrogen Bonding Fluids -- ; 4.3.4. Polymers -- ; 4.3.5. Transport Properties -- ; 4.4. Conclusions -- References -- ; ch. 5 Mixing and Combining Rules / Stanley I. Sandler -- ; 5.1. Introduction -- ; 5.2. The Virial Equation of State -- ; 5.3. Cubic Equations of State -- ; 5.3.1. Mixing Rules -- ; 5.3.2. Combining Rules -- ; 5.3.3. Non-Quadratic Mixing and Combining Rules -- ; 5.3.4. Mixing Rules that Combine an Equation of State with an Activity-Coefficient Model.
; 5.4. Multi-Parameter Equations of State -- ; 5.4.1. Benedict, Webb, and Rubin Equation of State -- ; 5.4.2. Generalization with the Acentric Factor -- ; 5.4.3. Helmholtz-Function Equations of State -- ; 5.5. Mixing Rules for Hard Spheres and Association -- ; 5.5.1. Mixing and Combining Rules for SAFT -- ; 5.5.2. Cubic Plus Association Equation of State -- References -- ; ch. 6 The Corresponding-States Principle / James F. Ely -- ; 6.1. Introduction -- ; 6.2. Theoretical Considerations -- ; 6.3. Determination of Shape Factors -- ; 6.3.1. Other Reference Fluids -- ; 6.3.2. Exact Shape Factors -- ; 6.3.3. Shape Factors from Generalized Equations of State -- ; 6.4. Mixtures -- ; 6.4.1. van der Waals One-Fluid Theory -- ; 6.4.2. Mixture Corresponding-States Relations -- ; 6.5. Applications of Corresponding-States Theory -- ; 6.5.1. Extended Corresponding-States for Natural Gas Systems -- ; 6.5.2. Extended Lee-Kesler -- ; 6.5.3. Generalized Crossover Cubic Equation of State -- ; 6.6. Conclusions -- References -- ; ch. 7 Thermodynamics of Fluids at Meso and Nano Scales / Christopher E. Bertrand.
; 7.1. Introduction -- ; 7.2. Thermodynamic Approach to Meso-Heterogeneous Systems -- ; 7.2.1. Equilibrium Fluctuations -- ; 7.2.2. Local Helmholtz Energy -- ; 7.3. Applications of Meso-Thermodynamics -- ; 7.3.1. Van der Waals Theory of a Smooth Interface -- ; 7.3.2. Polymer Chain in a Dilute Solution -- ; 7.3.3. Building a Nanoparticle Through Self Assembly -- ; 7.3.4. Modulated Fluid Phases -- ; 7.4. Meso-Thermodynamics of Criticality -- ; 7.4.1. Critical Fluctuations -- ; 7.4.2. Scaling Relations -- ; 7.4.3. Near-Critical Interface -- ; 7.4.4. Divergence of Tolman's Length -- ; 7.5. Competition of Meso-Scales -- ; 7.5.1. Crossover to Tricriticality in Polymer Solutions -- ; 7.5.2. Tolman's Length in Polymer Solutions -- ; 7.5.3. Finite-size Scaling -- ; 7.6. Non-Equilibrium Meso-Thermodynamics of Fluid Phase Separation -- ; 7.6.1. Relaxation of Fluctuations -- ; 7.6.2. Critical Slowing Down -- ; 7.6.3. Homogeneous Nucleation -- ; 7.6.4. Spinodal Decomposition -- ; 7.7. Conclusion -- References -- ; ch. 8 SAFT Associating Fluids and Fluid Mixtures / Amparo Galindo.
; 8.1. Introduction -- ; 8.2. Statistical Mechanical Theories of Association and Wertheim's Theory -- ; 8.3. SAFT Equations of State -- ; 8.3.1. SAFT-HS and SAFT-HR -- ; 8.3.2. Soft-SAFT -- ; 8.3.3. SAFT-VR -- ; 8.3.4. PC-SAFT -- ; 8.3.5. Summary -- ; 8.4. Extensions of the SAFT Approach -- ; 8.4.1. Modelling the Critical Region -- ; 8.4.2. Polar Fluids -- ; 8.4.3. Ion-Containing Fluids -- ; 8.4.4. Modelling Inhomogeneous Fluids -- ; 8.4.5. Dense Phases: Liquid Crystals and Solids -- ; 8.5. Parameter Estimation: Towards more Predictive Approaches -- ; 8.5.1. Pure-component Parameter Estimation -- ; 8.5.2. Use of Quantum Mechanics in SAFT Equations of State -- ; 8.5.3. Unlike Binary Intermolecular Parameters -- ; 8.6. SAFT Group-Contribution Approaches -- ; 8.6.1. Homonuclear Group-Contribution Models in SAFT -- ; 8.6.2. Heteronuclear Group Contribution Models in SAFT -- ; 8.7. Concluding Remarks -- References -- ; ch. 9 Polydisperse Fluids / Dieter Browarzik -- ; 9.1. Introduction -- ; 9.2. Influence of Polydispersity on the Liquid + Liquid Equilibrium of a Polymer Solution.
; 9.3. Approaches to Polydispersity -- ; 9.3.1. The Pseudo-component Method -- ; 9.3.2. Continuous Thermodynamics -- ; 9.4. Application to Real Systems -- ; 9.4.1. Polymer Systems -- ; 9.4.2. Petroleum Fluids, Asphaltenes, Waxes and Other Applications -- ; 9.5. Conclusions -- References -- ; ch. 10 Thermodynamic Behaviour of Fluids near Critical Points / Mikhail A. Anisimov -- ; 10.1. Introduction -- ; 10.2. General Theory of Critical Behaviour -- ; 10.2.1. Scaling Fields, Critical Exponents, and Critical Amplitudes -- ; 10.2.2. Parametric Equation of State -- ; 10.3. One-Component Fluids -- ; 10.3.1. Simple Scaling -- ; 10.3.2. Revised Scaling -- ; 10.3.3. Complete Scaling -- ; 10.3.4. Vapour-Liquid Equilibrium -- ; 10.3.5. Symmetric Corrections to Scaling -- ; 10.4. Binary Fluid Mixtures -- ; 10.4.1. Isomorphic Critical Behaviour of Mixtures -- ; 10.4.2. Incompressible Liquid Mixtures -- ; 10.4.3. Weakly Compressible Liquid Mixtures -- ; 10.4.4. Compressible Fluid Mixtures -- ; 10.4.5. Dilute Solutions -- ; 10.5. Crossover Critical Behaviour -- ; 10.5.1. Crossover from Ising-like to Mean-Field Critical Behaviour.
; 10.5.2. Effective Critical Exponents -- ; 10.5.3. Global Crossover Behaviour of Fluids -- ; 10.6. Discussion -- Acknowledgements -- References -- ; ch. 11 Phase Behaviour of Ionic Liquid Systems / Cor J. Peters -- ; 11.1. Introduction -- ; 11.2. Phase Behaviour of Binary Ionic Liquid Systems -- ; 11.2.1. Phase Behaviour of (Ionic Liquid + Gas Mixtures) -- ; 11.2.2. Phase Behaviour of (Ionic Liquid + Water) -- ; 11.2.3. Phase Behaviour of (Ionic Liquid + Organic) -- ; 11.3. Phase Behaviour of Ternary Ionic Liquid Systems -- ; 11.3.1. Phase Behaviour of (Ionic Liquid + Carbon Dioxide + Organic) -- ; 11.3.2. Phase Behaviour of (Ionic Liquid + Aliphatic + Aromatic) -- ; 11.3.3. Phase Behaviour of (Ionic Liquid + Water + Alcohol) -- ; 11.3.4. Phase Behaviour of Ionic Liquid Systems with Azeotropic Organic Mixtures -- ; 11.4. Modeling of the Phase Behaviour of Ionic Liquid Systems -- ; 11.4.1. Molecular Simulations -- ; 11.4.2. Excess Gibbs-energy Methods -- ; 11.4.3. Equation of State Modeling -- ; 11.4.4. Quantum Chemical Methods -- References -- ; ch. 12 Multi-parameter Equations of State for Pure Fluids and Mixtures / Roland Span.
; 12.1. Introduction -- ; 12.2. The Development of a Thermodynamic Property Formulation -- ; 12.3. Fitting an Equation of State to Experimental Data -- ; 12.3.1. Recent Nonlinear Fitting Methods -- ; 12.4. Pressure-Explicit Equations of State -- ; 12.4.1. Cubic Equations -- ; 12.4.2. The Benedict-Webb-Rubin Equation of State -- ; 12.4.3. The Bender Equation of State -- ; 12.4.4. The Jacobsen-Stewart Equation of State -- ; 12.4.5. Thermodynamic Properties from Pressure-Explicit Equations of State -- ; 12.5. Fundamental Equations -- ; 12.5.1. The Equation of Keenan, Keyes, Hill, and Moore -- ; 12.5.2. The Equations of Haar, Gallagher, and Kell -- ; 12.5.3. The Equation of Schmidt and Wagner -- ; 12.5.4. Reference Equations of Wagner -- ; 12.5.5. Technical Equations of Span and of Lemmon -- ; 12.5.6. Recent Equations of State.
Note continued--
; 13.6. Concluding Remarks -- References -- ; ch. 14 Applied Non-Equilibrium Thermodynamics / Dick Bedeaux -- ; 14.1. Introduction -- ; 14.1.1. A Systematic Thermodynamic Theory for Transport -- ; 14.1.2. On the Validity of the Assumption of Local Equilibrium -- ; 14.1.3. Concluding remarks -- ; 14.2. Fluxes and Forces from the Second Law of Thermodynamics -- ; 14.2.1. Continuous phases -- ; 14.2.2. Maxwell-Stefan Equations -- ; 14.2.3. Discontinuous Systems -- ; 14.2.4. Concluding Remarks -- ; 14.3. Chemical Reactions -- ; 14.3.1. Thermal Diffusion in a Reacting System -- ; 14.3.2. Mesoscopic Description Along the Reaction Coordinate -- ; 14.3.3. Heterogeneous Catalysis -- ; 14.3.4. Concluding Remarks -- ; 14.4. The Path of Energy-Efficient Operation -- ; 14.4.1. An Optimisation Procedure -- ; 14.4.2. Optimal Heat Exchange -- ; 14.4.3. The Highway Hypothesis for a Chemical Reactor -- ; 14.4.4. Energy-Efficient Production of Hydrogen Gas -- ; 14.4. Conclusions -- References.
Record Nr. UNINA-9910455872703321
Cambridge, : RSC Pub., c2010
Materiale a stampa
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Applied thermodynamics of fluids [[electronic resource] /] / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Applied thermodynamics of fluids [[electronic resource] /] / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Pubbl/distr/stampa Cambridge, : RSC Pub., c2010
Descrizione fisica 1 online resource (535 p.)
Disciplina 530.42
541.369
Altri autori (Persone) GoodwinA. R. H
SengersJ. V
PetersCor J
Soggetto topico Fluids - Thermal properties
ISBN 1-62198-164-9
1-84973-098-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ; 13.6. Concluding Remarks -- References -- ; ch. 14 Applied Non-Equilibrium Thermodynamics / Dick Bedeaux -- ; 14.1. Introduction -- ; 14.1.1. A Systematic Thermodynamic Theory for Transport -- ; 14.1.2. On the Validity of the Assumption of Local Equilibrium -- ; 14.1.3. Concluding remarks -- ; 14.2. Fluxes and Forces from the Second Law of Thermodynamics -- ; 14.2.1. Continuous phases -- ; 14.2.2. Maxwell-Stefan Equations -- ; 14.2.3. Discontinuous Systems -- ; 14.2.4. Concluding Remarks -- ; 14.3. Chemical Reactions -- ; 14.3.1. Thermal Diffusion in a Reacting System -- ; 14.3.2. Mesoscopic Description Along the Reaction Coordinate -- ; 14.3.3. Heterogeneous Catalysis -- ; 14.3.4. Concluding Remarks -- ; 14.4. The Path of Energy-Efficient Operation -- ; 14.4.1. An Optimisation Procedure -- ; 14.4.2. Optimal Heat Exchange -- ; 14.4.3. The Highway Hypothesis for a Chemical Reactor -- ; 14.4.4. Energy-Efficient Production of Hydrogen Gas -- ; 14.4. Conclusions -- References.
Record Nr. UNINA-9910780715103321
Cambridge, : RSC Pub., c2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Applied thermodynamics of fluids / / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Applied thermodynamics of fluids / / edited by A.R.H. Goodwin, J.V. Sengers, C.J. Peters
Edizione [1st ed.]
Pubbl/distr/stampa Cambridge, : RSC Pub., c2010
Descrizione fisica 1 online resource (535 p.)
Disciplina 530.42
541.369
Altri autori (Persone) GoodwinA. R. H
SengersJ. V
PetersCor J
Soggetto topico Fluids - Thermal properties
ISBN 1-62198-164-9
1-84973-098-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ; 13.6. Concluding Remarks -- References -- ; ch. 14 Applied Non-Equilibrium Thermodynamics / Dick Bedeaux -- ; 14.1. Introduction -- ; 14.1.1. A Systematic Thermodynamic Theory for Transport -- ; 14.1.2. On the Validity of the Assumption of Local Equilibrium -- ; 14.1.3. Concluding remarks -- ; 14.2. Fluxes and Forces from the Second Law of Thermodynamics -- ; 14.2.1. Continuous phases -- ; 14.2.2. Maxwell-Stefan Equations -- ; 14.2.3. Discontinuous Systems -- ; 14.2.4. Concluding Remarks -- ; 14.3. Chemical Reactions -- ; 14.3.1. Thermal Diffusion in a Reacting System -- ; 14.3.2. Mesoscopic Description Along the Reaction Coordinate -- ; 14.3.3. Heterogeneous Catalysis -- ; 14.3.4. Concluding Remarks -- ; 14.4. The Path of Energy-Efficient Operation -- ; 14.4.1. An Optimisation Procedure -- ; 14.4.2. Optimal Heat Exchange -- ; 14.4.3. The Highway Hypothesis for a Chemical Reactor -- ; 14.4.4. Energy-Efficient Production of Hydrogen Gas -- ; 14.4. Conclusions -- References.
Record Nr. UNINA-9910826002303321
Cambridge, : RSC Pub., c2010
Materiale a stampa
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Critical phenomena : proceedings of a conference held in Washington, D.C., April 1965 / / sponsored by National Bureau of Standards, National Science Foundation, Office of Naval Research ; edited by M.S. Green and J.V. Sengers
Critical phenomena : proceedings of a conference held in Washington, D.C., April 1965 / / sponsored by National Bureau of Standards, National Science Foundation, Office of Naval Research ; edited by M.S. Green and J.V. Sengers
Pubbl/distr/stampa Washington, D.C. : , : U.S. Dept. of Commerce, National Bureau of Standards : , : For sale by Supt. of Docs., U.S. G.P.O., , [1966]
Descrizione fisica 1 online resource (xiv, 242 pages) : illustrations
Disciplina 536/.443
Altri autori (Persone) GreenMelville S
SengersJ. V
Collana National Bureau of Standards miscellaneous publication
Soggetto topico Critical point
Magnetism
Matter - Properties
Superfluidity
Soggetto genere / forma Conference papers and proceedings.
Classificazione 33.64
UG 3800
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Altri titoli varianti Critical phenomena
Record Nr. UNINA-9910712924903321
Washington, D.C. : , : U.S. Dept. of Commerce, National Bureau of Standards : , : For sale by Supt. of Docs., U.S. G.P.O., , [1966]
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Density separation of small particles by magnetic fluid sink-float methods : A theoretical study / / Raymond D. Mountain; J. V. Sengers
Density separation of small particles by magnetic fluid sink-float methods : A theoretical study / / Raymond D. Mountain; J. V. Sengers
Autore Mountain R. D
Pubbl/distr/stampa Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1976
Descrizione fisica 1 online resource
Altri autori (Persone) MountainR. D
SengersJ. V
Collana NBSIR
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Altri titoli varianti Density separation of small particles by magnetic fluid sink-float methods
Record Nr. UNINA-9910710015603321
Mountain R. D  
Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1976
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Hydrodynamic fluctuations in fluids and fluid mixtures / / by Jose M. Ortiz de Zarate, Jan V. Sengers
Hydrodynamic fluctuations in fluids and fluid mixtures / / by Jose M. Ortiz de Zarate, Jan V. Sengers
Autore Ortiz de Zarate Jose M
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam, : Elsevier, 2006
Descrizione fisica 1 online resource (320 p.)
Disciplina 532.05
Altri autori (Persone) SengersJ. V
Soggetto topico Hydrodynamics
Nonequilibrium thermodynamics
Thermodynamics
ISBN 1-280-64157-6
9786610641574
0-08-045943-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Contents; Introduction; Nonequilibrium thermodynamics; Local thermodynamic properties; Equilibrium thermodynamics; Continuum hypothesis and the assumption of local equilibrium; Balance laws; Mass balance; Pressure tensor; Momentum balance; Energy balance; Additional remarks; Entropy balance, dissipative Fluxes and thermodynamic forces; Phenomenological relations; Onsager's reciprocal relations; Hydrodynamic equations; Hydrodynamic equations for a one-component Fluid; Hydrodynamic equations for a binary mixture; Boundary conditions
Conditions at the interface between two continuous mediaA flat horizontal fluid boundary; Fluctuations in fluids in thermodynamic equilibrium; Fluctuating hydrodynamics; Fluctuation-dissipation theorem for Fluids and Fluid mixtures; Fluctuation-dissipation theorem for a one-component Fluid; Fluctuation-dissipation theorem for a binary mixture; Hydrodynamic fluctuations in a one-component Fluid; Structure factor; Equal-time correlations; Equilibrium correlation functions and entropy probability functional; Extension of fluctuating hydrodynamics to nonequilibrium steady states
Thermal nonequilibrium fluctuations in one-component fluidsBoussinesq approximation; Bulk structure factor in the presence of a stationary temperature gradient; Nonequilibrium e.ects on the Brillouin doublet; Nonequilibrium fluctuations in heat conduction; Thermal nonequilibrium fluctuations in fluid mixtures; Linearized fluctuating Boussinesq equations for a binary liquid; The linear stability problem; Structure factor in a large-Lewis-number approximation; Comprehensive structure factor of a nonequilibrium binary mixture; Nonequilibrium .uctuations in isothermal free-di.usion processes
Finite-size effects in hydrodynamic fluctuationsThe hydrodynamic operator; Structure factors; Hydrodynamic modes and decay rates for two free boundaries; Hydrodynamic modes and decay rates for two rigid boundaries; Decay rates for rigid boundaries in the limit of small q; Decay rates for rigid boundaries in the limit of large q; The slowest decay rate; Thermal nonequilibrium fluctuations in one-component- fluid layers; A fluid confined between two free boundaries; A fluid confined between two rigid boundaries
Limiting behavior of the structure factor for rigid boundaries at small and large wave numbersA Galerkin approximation for two rigid boundaries; Correlations in real space; Contribution of nonequilibrium fluctuations to heat transfer; Thermal fluctuations close to the Rayleigh-Benard instability; Critical slowing down of nonequilibrium fluctuations; The most-unstable-mode approximation; The Swift-Hohenberg approximation; Power of thermal fluctuations; Wave number of maximum enhancement of .uctuations; Wave number fluctuations with maximum growth rate
Thermal nonequilibrium fluctuations in binary-fluid layers
Record Nr. UNINA-9910823048903321
Ortiz de Zarate Jose M  
Amsterdam, : Elsevier, 2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Hydrodynamic fluctuations in fluids and fluid mixtures [[electronic resource] /] / by José M. Ortiz de Zárate, Jan V. Sengers
Hydrodynamic fluctuations in fluids and fluid mixtures [[electronic resource] /] / by José M. Ortiz de Zárate, Jan V. Sengers
Autore Ortiz de Zárate José M
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam, : Elsevier, 2006
Descrizione fisica 1 online resource (320 p.)
Disciplina 532.05
Altri autori (Persone) SengersJ. V
Soggetto topico Hydrodynamics
Nonequilibrium thermodynamics
Thermodynamics
Soggetto genere / forma Electronic books.
ISBN 1-280-64157-6
9786610641574
0-08-045943-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Contents; Introduction; Nonequilibrium thermodynamics; Local thermodynamic properties; Equilibrium thermodynamics; Continuum hypothesis and the assumption of local equilibrium; Balance laws; Mass balance; Pressure tensor; Momentum balance; Energy balance; Additional remarks; Entropy balance, dissipative Fluxes and thermodynamic forces; Phenomenological relations; Onsager's reciprocal relations; Hydrodynamic equations; Hydrodynamic equations for a one-component Fluid; Hydrodynamic equations for a binary mixture; Boundary conditions
Conditions at the interface between two continuous mediaA flat horizontal fluid boundary; Fluctuations in fluids in thermodynamic equilibrium; Fluctuating hydrodynamics; Fluctuation-dissipation theorem for Fluids and Fluid mixtures; Fluctuation-dissipation theorem for a one-component Fluid; Fluctuation-dissipation theorem for a binary mixture; Hydrodynamic fluctuations in a one-component Fluid; Structure factor; Equal-time correlations; Equilibrium correlation functions and entropy probability functional; Extension of fluctuating hydrodynamics to nonequilibrium steady states
Thermal nonequilibrium fluctuations in one-component fluidsBoussinesq approximation; Bulk structure factor in the presence of a stationary temperature gradient; Nonequilibrium e.ects on the Brillouin doublet; Nonequilibrium fluctuations in heat conduction; Thermal nonequilibrium fluctuations in fluid mixtures; Linearized fluctuating Boussinesq equations for a binary liquid; The linear stability problem; Structure factor in a large-Lewis-number approximation; Comprehensive structure factor of a nonequilibrium binary mixture; Nonequilibrium .uctuations in isothermal free-di.usion processes
Finite-size effects in hydrodynamic fluctuationsThe hydrodynamic operator; Structure factors; Hydrodynamic modes and decay rates for two free boundaries; Hydrodynamic modes and decay rates for two rigid boundaries; Decay rates for rigid boundaries in the limit of small q; Decay rates for rigid boundaries in the limit of large q; The slowest decay rate; Thermal nonequilibrium fluctuations in one-component- fluid layers; A fluid confined between two free boundaries; A fluid confined between two rigid boundaries
Limiting behavior of the structure factor for rigid boundaries at small and large wave numbersA Galerkin approximation for two rigid boundaries; Correlations in real space; Contribution of nonequilibrium fluctuations to heat transfer; Thermal fluctuations close to the Rayleigh-Benard instability; Critical slowing down of nonequilibrium fluctuations; The most-unstable-mode approximation; The Swift-Hohenberg approximation; Power of thermal fluctuations; Wave number of maximum enhancement of .uctuations; Wave number fluctuations with maximum growth rate
Thermal nonequilibrium fluctuations in binary-fluid layers
Record Nr. UNINA-9910457420503321
Ortiz de Zárate José M  
Amsterdam, : Elsevier, 2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Hydrodynamic fluctuations in fluids and fluid mixtures [[electronic resource] /] / by José M. Ortiz de Zárate, Jan V. Sengers
Hydrodynamic fluctuations in fluids and fluid mixtures [[electronic resource] /] / by José M. Ortiz de Zárate, Jan V. Sengers
Autore Ortiz de Zárate José M
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam, : Elsevier, 2006
Descrizione fisica 1 online resource (320 p.)
Disciplina 532.05
Altri autori (Persone) SengersJ. V
Soggetto topico Hydrodynamics
Nonequilibrium thermodynamics
Thermodynamics
ISBN 1-280-64157-6
9786610641574
0-08-045943-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Contents; Introduction; Nonequilibrium thermodynamics; Local thermodynamic properties; Equilibrium thermodynamics; Continuum hypothesis and the assumption of local equilibrium; Balance laws; Mass balance; Pressure tensor; Momentum balance; Energy balance; Additional remarks; Entropy balance, dissipative Fluxes and thermodynamic forces; Phenomenological relations; Onsager's reciprocal relations; Hydrodynamic equations; Hydrodynamic equations for a one-component Fluid; Hydrodynamic equations for a binary mixture; Boundary conditions
Conditions at the interface between two continuous mediaA flat horizontal fluid boundary; Fluctuations in fluids in thermodynamic equilibrium; Fluctuating hydrodynamics; Fluctuation-dissipation theorem for Fluids and Fluid mixtures; Fluctuation-dissipation theorem for a one-component Fluid; Fluctuation-dissipation theorem for a binary mixture; Hydrodynamic fluctuations in a one-component Fluid; Structure factor; Equal-time correlations; Equilibrium correlation functions and entropy probability functional; Extension of fluctuating hydrodynamics to nonequilibrium steady states
Thermal nonequilibrium fluctuations in one-component fluidsBoussinesq approximation; Bulk structure factor in the presence of a stationary temperature gradient; Nonequilibrium e.ects on the Brillouin doublet; Nonequilibrium fluctuations in heat conduction; Thermal nonequilibrium fluctuations in fluid mixtures; Linearized fluctuating Boussinesq equations for a binary liquid; The linear stability problem; Structure factor in a large-Lewis-number approximation; Comprehensive structure factor of a nonequilibrium binary mixture; Nonequilibrium .uctuations in isothermal free-di.usion processes
Finite-size effects in hydrodynamic fluctuationsThe hydrodynamic operator; Structure factors; Hydrodynamic modes and decay rates for two free boundaries; Hydrodynamic modes and decay rates for two rigid boundaries; Decay rates for rigid boundaries in the limit of small q; Decay rates for rigid boundaries in the limit of large q; The slowest decay rate; Thermal nonequilibrium fluctuations in one-component- fluid layers; A fluid confined between two free boundaries; A fluid confined between two rigid boundaries
Limiting behavior of the structure factor for rigid boundaries at small and large wave numbersA Galerkin approximation for two rigid boundaries; Correlations in real space; Contribution of nonequilibrium fluctuations to heat transfer; Thermal fluctuations close to the Rayleigh-Benard instability; Critical slowing down of nonequilibrium fluctuations; The most-unstable-mode approximation; The Swift-Hohenberg approximation; Power of thermal fluctuations; Wave number of maximum enhancement of .uctuations; Wave number fluctuations with maximum growth rate
Thermal nonequilibrium fluctuations in binary-fluid layers
Record Nr. UNINA-9910784597603321
Ortiz de Zárate José M  
Amsterdam, : Elsevier, 2006
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Thermodynamic properties of isobutane mixtures from 240 to 600 K and up to 20 Mpa with supplemental tables from -40 to +600ŽF and up to 1000 psia / / J. S. Gallagher; J. M. H. Levelt Sengers; G. Morrison; J. V. Sengers
Thermodynamic properties of isobutane mixtures from 240 to 600 K and up to 20 Mpa with supplemental tables from -40 to +600ŽF and up to 1000 psia / / J. S. Gallagher; J. M. H. Levelt Sengers; G. Morrison; J. V. Sengers
Autore Gallagher J. S
Pubbl/distr/stampa Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1984
Descrizione fisica 1 online resource
Altri autori (Persone) GallagherJ. S
Levelt SengersJ. M. H
MorrisonG
SengersJ. V
Collana NBSIR
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910710579303321
Gallagher J. S  
Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1984
Materiale a stampa
Lo trovi qui: Univ. Federico II
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A thermodynamic surface for the critical region of ethylene / / J. M. H. Levelt Sengers, G. A. Olchowy, B. Kamgar-Parsi, J. V. Sengers
A thermodynamic surface for the critical region of ethylene / / J. M. H. Levelt Sengers, G. A. Olchowy, B. Kamgar-Parsi, J. V. Sengers
Autore Levelt Sengers J. M. H
Pubbl/distr/stampa Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1984
Descrizione fisica 1 online resource
Altri autori (Persone) Kamgar-ParsiB
Levelt SengersJ. M. H
OlchowyG. A <1959-> (Gerald Anthony)
SengersJ. V
Collana NBS technical note
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910711385803321
Levelt Sengers J. M. H  
Gaithersburg, MD : , : U.S. Dept. of Commerce, National Institute of Standards and Technology, , 1984
Materiale a stampa
Lo trovi qui: Univ. Federico II
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