Lectures on visco-plastic fluid mechanics. (2019)
- Record Type:
- Book
- Title:
- Lectures on visco-plastic fluid mechanics. (2019)
- Main Title:
- Lectures on visco-plastic fluid mechanics
- Further Information:
- Note: Guillaume Ovarlez, Sarah Hormozi, editors.
- Editors:
- Ovarlez, Guillaume
Hormozi, Sarah - Contents:
- Intro; Preface; Contents; Background Lectures on Ideal Visco-Plastic Fluid Flows; 1 General Aspects of Visco-Plastic Fluid Flows; 1.1 General Setup; 1.2 Classical Formulation; 2 Stokes Flow; 2.1 Principle of Virtual Power; 2.2 Mechanical Energy Balance; 2.3 Velocity Minimization; 2.4 Stress Maximization; 3 Using Variational Methods for Stokes Flows; 3.1 Existence, Uniqueness and Properties of Solutions; 3.2 Monotonicity and Continuity; 4 Static Solutions to the Stokes Flow Problem; 4.1 Physical Intuition of the Zero Flow; 4.2 Analytical Derivation and Definition 4.3 Examples of Zero Flow Limits4.4 Exact Methods; 4.5 Approximation Methods; 4.6 Computational Methods; 5 Flow Stability; 5.1 Stability of Static Flows; 5.2 Stability of Moving Flows; References; Viscoplastic Asymptotics and Other Analytical Methods; 1 Introduction; 2 Viscoplastic Lubrication Theory; 2.1 Mathematical Formulation; 2.2 Squeeze Flow of Bingham Fluid; 2.3 The Pseudo-Plug Solution and Finer Matching Details; 2.4 Strategy for More General Solutions; 2.5 Plastic Limit; 2.6 Sliplines; 2.7 Extension to Three Dimensions; 3 Viscoplastic Boundary Layers 3.1 Oldroyd's Viscoplastic Shear Layer3.2 Self-similar Solutions; 3.3 Sample Flow Solutions with Boundary Layers; 4 Free-Surface Flow; 4.1 Sticky Viscoplastic Films; 4.2 Sliding Films; 4.3 Viscoplastic Membrane Models; 4.4 Jet Instability; 4.5 Viscoplastic Beams; 4.6 Bending Viscoplastic Beams; Toppling Viscoplastic columns; 5 Concluding Remarks; References;Intro; Preface; Contents; Background Lectures on Ideal Visco-Plastic Fluid Flows; 1 General Aspects of Visco-Plastic Fluid Flows; 1.1 General Setup; 1.2 Classical Formulation; 2 Stokes Flow; 2.1 Principle of Virtual Power; 2.2 Mechanical Energy Balance; 2.3 Velocity Minimization; 2.4 Stress Maximization; 3 Using Variational Methods for Stokes Flows; 3.1 Existence, Uniqueness and Properties of Solutions; 3.2 Monotonicity and Continuity; 4 Static Solutions to the Stokes Flow Problem; 4.1 Physical Intuition of the Zero Flow; 4.2 Analytical Derivation and Definition 4.3 Examples of Zero Flow Limits4.4 Exact Methods; 4.5 Approximation Methods; 4.6 Computational Methods; 5 Flow Stability; 5.1 Stability of Static Flows; 5.2 Stability of Moving Flows; References; Viscoplastic Asymptotics and Other Analytical Methods; 1 Introduction; 2 Viscoplastic Lubrication Theory; 2.1 Mathematical Formulation; 2.2 Squeeze Flow of Bingham Fluid; 2.3 The Pseudo-Plug Solution and Finer Matching Details; 2.4 Strategy for More General Solutions; 2.5 Plastic Limit; 2.6 Sliplines; 2.7 Extension to Three Dimensions; 3 Viscoplastic Boundary Layers 3.1 Oldroyd's Viscoplastic Shear Layer3.2 Self-similar Solutions; 3.3 Sample Flow Solutions with Boundary Layers; 4 Free-Surface Flow; 4.1 Sticky Viscoplastic Films; 4.2 Sliding Films; 4.3 Viscoplastic Membrane Models; 4.4 Jet Instability; 4.5 Viscoplastic Beams; 4.6 Bending Viscoplastic Beams; Toppling Viscoplastic columns; 5 Concluding Remarks; References; Computational Methods for Viscoplastic Fluid Flows; 1 General Introduction, Concepts, Difficulties, Various Algorithms; 1.1 Multipliers Techniques; 1.2 Regularization Methods; 1.3 Ready-on-the-Shelf Algorithms 1.4 Solution Methods: Advantages and Drawbacks2 Discretization Schemes for Visoplastic Fluid Flows: FDM, FVM, FEM, LBM; 2.1 Finite Difference (FD); 2.2 Finite Volume (FV); 2.3 Finite Element (FE); 2.4 Discretization Schemes for Viscoplastic Fluid Flows; 3 Better and Faster: Capturing the Yield Surfaces and High Performance Computing; 4 Additional Effects: Compressibility, Heat Transfer, Elasticity, Thixotropy, Two-Phase Flows; 4.1 Heat Transfer; 4.2 Thixotropy; 4.3 Two-Fluid Flow; 4.4 Compressibility; 5 How to Capture the No-Flow Limit and Finite Time Decay in Single and Two-Phase Flows 5.1 Natural Convection in a Viscoplastic Flow5.2 Settling of a Solid Particle in a Viscoplastic Fluid; References; Rheometry of Visco-Plastic Fluids; 1 Introduction; 2 Rheometry; 3 Characterisation of Simple Yield Stress Fluids; 4 Characterisation of Thixotropic Yield Stress Fluids; 5 Techniques to Study Local Flow Properties; References; Rheology of Visco-Plastic Suspensions; 1 Introduction; 2 Theory; 3 Experiments: Methodology; 3.1 Materials; 3.2 Experimental Procedures; 4 Phenomenological Expressions and Experimental Results; 4.1 Isotropic Suspensions; 4.2 Anisotropic Suspensions … (more)
- Publisher Details:
- Cham, Switzerland : Springer
- Publication Date:
- 2019
- Extent:
- 1 online resource
- Subjects:
- 620.11233
Engineering
Viscoplasticity
Fluid mechanics
TECHNOLOGY & ENGINEERING / Engineering (General)
TECHNOLOGY & ENGINEERING / Reference
Fluid mechanics
Viscoplasticity
Science -- Mechanics -- Dynamics -- Fluid Dynamics
Mathematics -- Applied
Fluid mechanics
Mathematical modelling
Hydraulic engineering
Technology & Engineering -- Mechanical
Mechanics of fluids
Electronic books - Languages:
- English
- ISBNs:
- 9783319894386
3319894382 - Related ISBNs:
- 9783319894379
- Notes:
- Note: Online resource; title from PDF title page (EBSCO, viewed July 2, 2018).
- 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).
- Access Usage:
- 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.358733
- Ingest File:
- 01_320.xml