Transport phenomena in complex fluids. (2020)
- Record Type:
- Book
- Title:
- Transport phenomena in complex fluids. (2020)
- Main Title:
- Transport phenomena in complex fluids
- Further Information:
- Note: Teodor Burghelea, Volfango Bertola, editors.
- Other Names:
- Burghelea, Teodor
Bertola, Volfango - Contents:
- Intro -- Preface -- Contents -- Introduction to Transport Phenomena in Complex Fluids -- 1 Transport Phenomena -- 1.1 Advection and Diffusion -- 1.2 Generalized Conservation Equations (Multifield Approach) -- 1.3 Complex Fluids Versus Simple Fluids -- 2 Complex Fluids -- 2.1 Polymers -- 2.2 Surface-Active Agents (Surfactants) -- 2.3 Colloids -- References -- Constitutive Models of Complex Fluids -- 1 Introduction -- 2 Constitutive Models for Generalised Newtonian Flows -- 3 Constitutive Models for Viscoelastic Flows -- 3.1 Linear Viscoelasticity -- 3.2 The Problem of Time Derivatives 3.3 Oldroyd-B Model -- 3.4 FENE Model -- 3.5 Other Constitutive Models for Viscoelastic Flows -- 4 Constitutive Models for Viscoplastic Flows -- References -- Experimental Methods to Characterize Complex Fluids -- 1 Rheological Characterisation of Complex Fluids -- 1.1 Fundamentals of Shear Rheology -- 1.2 Fundamentals of Extensional Rheology -- 2 Surface Tension Measurement Techniques -- 2.1 Direct Force Measurement -- 2.2 Measurement of Laplace Pressure -- 2.3 Capillary-Gravity Balance -- 2.4 Gravity-Induced Deformation -- 2.5 Forced Deformation -- References Transport Phenomena in Viscoelastic Fluids -- 1 Molecular Origins of Viscoelasticity in Dilute Polymer Solutions -- 2 Macroscopic Flow Phenomena Triggered by the Microscopic Coil-Stretch Transition -- 2.1 The Rod-Climbing Effect -- 2.2 Extrudate Swell Effect -- 2.3 Drag Reduction -- 3 Hydrodynamic Stability of Dilute Polymer Solutions --Intro -- Preface -- Contents -- Introduction to Transport Phenomena in Complex Fluids -- 1 Transport Phenomena -- 1.1 Advection and Diffusion -- 1.2 Generalized Conservation Equations (Multifield Approach) -- 1.3 Complex Fluids Versus Simple Fluids -- 2 Complex Fluids -- 2.1 Polymers -- 2.2 Surface-Active Agents (Surfactants) -- 2.3 Colloids -- References -- Constitutive Models of Complex Fluids -- 1 Introduction -- 2 Constitutive Models for Generalised Newtonian Flows -- 3 Constitutive Models for Viscoelastic Flows -- 3.1 Linear Viscoelasticity -- 3.2 The Problem of Time Derivatives 3.3 Oldroyd-B Model -- 3.4 FENE Model -- 3.5 Other Constitutive Models for Viscoelastic Flows -- 4 Constitutive Models for Viscoplastic Flows -- References -- Experimental Methods to Characterize Complex Fluids -- 1 Rheological Characterisation of Complex Fluids -- 1.1 Fundamentals of Shear Rheology -- 1.2 Fundamentals of Extensional Rheology -- 2 Surface Tension Measurement Techniques -- 2.1 Direct Force Measurement -- 2.2 Measurement of Laplace Pressure -- 2.3 Capillary-Gravity Balance -- 2.4 Gravity-Induced Deformation -- 2.5 Forced Deformation -- References Transport Phenomena in Viscoelastic Fluids -- 1 Molecular Origins of Viscoelasticity in Dilute Polymer Solutions -- 2 Macroscopic Flow Phenomena Triggered by the Microscopic Coil-Stretch Transition -- 2.1 The Rod-Climbing Effect -- 2.2 Extrudate Swell Effect -- 2.3 Drag Reduction -- 3 Hydrodynamic Stability of Dilute Polymer Solutions -- 4 Elastic Turbulence in Dilute Polymer Solutions: Turbulence Without Inertia -- 4.1 Flow Resistance -- 4.2 Flow Structure in a Regime of Elastic Turbulence -- 4.3 Space-Time Correlations and Spectra in a Regime of Elastic Turbulence 4.4 Statistics of Velocity Gradients in a Regime of Elastic Turbulence -- 4.5 Boundary Layer in a Regime of Elastic Turbulence -- 4.6 Lagrangian Frame Dynamics in a Regime of Elastic Turbulence -- 5 Characterisation of Elastic Turbulence in Microscopic Curvilinear Flows -- 5.1 Onset and Development of Elastic Turbulence in Micro-channel, Flow Structure -- 5.2 On the Nature of the Bifurcation Towards Elastic Turbulence -- 5.3 Statistics and Spatial Distribution of the Velocity Gradients -- Analysis of Boundary Layers -- 6 Efficient Microscopic Mixing by Elastic Turbulence 6.1 Decay Regime of Mixing in a Random Micro-Flow -- 6.2 Scaling of the Mixing Length with Pe -- 6.3 Analysis of the Mixing Boundary Layer -- 6.4 Spatial and Temporal Correlations of the Passive Scalar Fluctuations -- 7 Macroscopic Heat Transport by Elastic Turbulence -- 7.1 Observation and Characterisation of Elastic Turbulent Flow States -- 7.2 Heat Transport by Elastic Turbulence -- 7.3 Statistical and Scaling Properties of the Temperature Fluctuations: Passive or Active Scalar? -- 8 Hydrodynamic Theory of Elastic Turbulence -- References -- Transport Phenomena in Viscoplastic Materials … (more)
- Publisher Details:
- Cham : Springer
- Publication Date:
- 2020
- Extent:
- 1 online resource (402 pages)
- Subjects:
- 530.4/2
Complex fluids
Transport theory
Complex fluids
Transport theory
Electronic books - Languages:
- English
- ISBNs:
- 9783030355586
3030355586 - Related ISBNs:
- 9783030355579
3030355578 - Notes:
- Note: Includes bibliographical references.
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- 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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- Physical Locations:
- British Library HMNTS - ELD.DS.478827
- Ingest File:
- 03_029.xml