Transport and fluctuations in granular fluids : from Boltzmann equation to hydrodynamics, diffusion and motor effects /: from Boltzmann equation to hydrodynamics, diffusion and motor effects. ([2014])
- Record Type:
- Book
- Title:
- Transport and fluctuations in granular fluids : from Boltzmann equation to hydrodynamics, diffusion and motor effects /: from Boltzmann equation to hydrodynamics, diffusion and motor effects. ([2014])
- Main Title:
- Transport and fluctuations in granular fluids : from Boltzmann equation to hydrodynamics, diffusion and motor effects
- Further Information:
- Note: Andrea Puglisi.
- Authors:
- Puglisi, Andrea
- Contents:
- Preface; Contents; Symbols; Introduction and Motivation; 1 Granular Fluids: From Everyday Life to the Lab; 1.1 The Granular ``States''; 1.2 Granular Flows; 1.2.1 Air Fluidization; 1.2.2 Shear; 1.2.3 Shakers; 1.3 Granular Versus Active Fluids; References; 2 Boltzmann Equation: A Gas of Grains; 2.1 Collisions; 2.1.1 Elastic Smooth Hard Spheres; 2.1.2 Statistics of Hard Spheres Collisions; 2.1.3 Inelasticity; 2.1.4 Inelastic Collapse; 2.2 The Boltzmann Equation; 2.2.1 Liouville and Pseudo-Liouville Equations; 2.2.2 The BBGKY Hierarchy; 2.2.3 The Boltzmann Hierarchy and the Boltzmann Equation. 2.2.4 Collision Invariants and H-theorem2.2.5 The Maxwell Molecules; 2.2.6 The Enskog Correction; 2.3 The Boltzmann Equation for Granular Gases; 2.3.1 Average Energy Loss; 2.3.2 Sonine Polynomials; 2.3.3 The Homogeneous Cooling State; 2.3.4 Inelastic Maxwell Molecules; 2.3.5 Bulk Driving; 2.3.6 Looking for a ``Granular'' H-theorem; References; 3 Hydrodynamics: A Sea of Grains; 3.1 Granular Kinetic Theory; 3.1.1 A Sketch of the Chapman-Enskog Approximation Method; 3.1.2 Densities and Fluxes; 3.1.3 Equations for the Densities; 3.1.4 Chapman-Enskog Closure; 3.1.5 Inelastic Case. 3.2 Critiques of Granular Hydrodynamics3.3 Applications of Granular Hydrodynamics; 3.3.1 Linear Stability Analysis of the Homogeneous Cooling State; 3.3.2 A Solvable Case: Granular Sedimentation in 2D; 3.3.3 Thermal Convection; 3.3.4 Other Instabilities of Granular Hydrodynamic; 3.4 Fluctuating Hydrodynamics; 3.4.1Preface; Contents; Symbols; Introduction and Motivation; 1 Granular Fluids: From Everyday Life to the Lab; 1.1 The Granular ``States''; 1.2 Granular Flows; 1.2.1 Air Fluidization; 1.2.2 Shear; 1.2.3 Shakers; 1.3 Granular Versus Active Fluids; References; 2 Boltzmann Equation: A Gas of Grains; 2.1 Collisions; 2.1.1 Elastic Smooth Hard Spheres; 2.1.2 Statistics of Hard Spheres Collisions; 2.1.3 Inelasticity; 2.1.4 Inelastic Collapse; 2.2 The Boltzmann Equation; 2.2.1 Liouville and Pseudo-Liouville Equations; 2.2.2 The BBGKY Hierarchy; 2.2.3 The Boltzmann Hierarchy and the Boltzmann Equation. 2.2.4 Collision Invariants and H-theorem2.2.5 The Maxwell Molecules; 2.2.6 The Enskog Correction; 2.3 The Boltzmann Equation for Granular Gases; 2.3.1 Average Energy Loss; 2.3.2 Sonine Polynomials; 2.3.3 The Homogeneous Cooling State; 2.3.4 Inelastic Maxwell Molecules; 2.3.5 Bulk Driving; 2.3.6 Looking for a ``Granular'' H-theorem; References; 3 Hydrodynamics: A Sea of Grains; 3.1 Granular Kinetic Theory; 3.1.1 A Sketch of the Chapman-Enskog Approximation Method; 3.1.2 Densities and Fluxes; 3.1.3 Equations for the Densities; 3.1.4 Chapman-Enskog Closure; 3.1.5 Inelastic Case. 3.2 Critiques of Granular Hydrodynamics3.3 Applications of Granular Hydrodynamics; 3.3.1 Linear Stability Analysis of the Homogeneous Cooling State; 3.3.2 A Solvable Case: Granular Sedimentation in 2D; 3.3.3 Thermal Convection; 3.3.4 Other Instabilities of Granular Hydrodynamic; 3.4 Fluctuating Hydrodynamics; 3.4.1 Simple Models of Noise; 3.4.2 Deriving the Fluctuations from the Kinetic Equation; References; 4 Tracer's Diffusion: Swimming Through the Grains; 4.1 The Markovian Limit; 4.1.1 Decoupling the Gas from the Tracer; 4.1.2 The Transition Rate; 4.2 The Large Mass Limit. 4.2.1 Langevin Equation for the Tracer4.3 Non-Markovian Tracer's Diffusion; 4.4 The Granular Brownian Ratchet; 4.4.1 Continuous Limit; 4.4.2 Other Methods, Models and Experiments; References; 5 The Arrow of Time: Past and Future of Grains; 5.1 Equilibrium from a Dynamical Perspective; 5.1.1 The Case of Markov Processes; 5.1.2 Entropy Production; 5.1.3 Observables Related to Entropy Production; 5.2 The Case of the Granular Intruder; 5.2.1 The Paradox of the Large Mass Limit; 5.2.2 Linear Response; 5.2.3 The Granular Motor; 5.2.4 Coupling with the Fluid: Non-equilibrium Re-established. 5.3 Time-Reversal in Fluctuating HydrodynamicsReferences; Conclusion and Perspectives; Appendix A Expansion of the First Two Momentsof the Transition Rates for Large Massof the Tracer; Index. … (more)
- Publisher Details:
- Cham : Springer
- Publication Date:
- 2014
- Copyright Date:
- 2015
- Extent:
- 1 online resource (xvi, 118 pages), illustrations (some color)
- Subjects:
- 530.41
Physics
Granular materials
Transport theory
Granular flow
SCIENCE -- Energy
SCIENCE -- Mechanics -- General
SCIENCE -- Physics -- General
Granular flow
Granular materials
Transport theory
Science -- Physics
Science -- Mathematical Physics
Statistical physics
Mathematical physics
Mathematical physics
Statistical physics
Science -- Mechanics -- Dynamics -- Fluid Dynamics
Materials / States of matter
Electronic books - Languages:
- English
- ISBNs:
- 9783319102863
3319102869
3319102850
9783319102856 - Related ISBNs:
- 9783319102856
- Notes:
- Note: Includes bibliographical references and index.
Note: Online resource; title from PDF title page (SpringerLink, viewed September 17, 2014). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.361083
- Ingest File:
- 01_327.xml