Description
Microhydrodynamics and Complex Fluids
Author: Barthès-Biesel Dominique
Language: English
Subjects for Microhydrodynamics and Complex Fluids:
Keywords
Simple Shear Flow; Stokes Flow; advanced fluid mechanics; Incompressible Newtonian Liquid; mechanics of fluids; Linear Shear Flow; fluid mechanics textbook; Potential Dipole; stokes flows; Effective Transport Properties; low Reynolds number flows; Hele Shaw Cell; non-Newtonian flows; Shear Rate; non-Newtonian fluids; Resistance Tensors; complex fluids; Bi-harmonic Equation; lubrication; Apparent Viscosity; suspensions; Quiescent Fluid; introduction to suspension mechanics; Unit Axial Length; Stream Function; Potential Quadrupole; Stokes Approximation; Boundary Integral Method; Non-Newtonian Fluid Mechanics; Normal Stress Differences; Dilute Suspension; Self-similar Solution; Ordinary Differential Equation; Ti R3; Full Navier Stokes Equations; Thermocapillary Flow
Publication date: 04-2017
· 15.6x23.4 cm · Paperback
Publication date: 06-2012
258 p. · 15.6x23.4 cm · Paperback
Description
/li>Contents
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A self-contained textbook, Microhydrodynamics and Complex Fluids deals with the main phenomena that occur in slow, inertialess viscous flows often encountered in various industrial, biophysical, and natural processes. It examines a wide range of situations, from flows in thin films, porous media, and narrow channels to flows around suspended particles. Each situation is illustrated with examples that can be solved analytically so that the main physical phenomena are clear. It also discusses a range of numerical modeling techniques.
Two chapters deal with the flow of complex fluids, presented first with the formal analysis developed for the mechanics of suspensions and then with the phenomenological tools of non-Newtonian fluid mechanics. All concepts are presented simply, with no need for complex mathematical tools. End-of-chapter exercises and exam problems help you test yourself.
Dominique Barthès-Biesel has taught this subject for over 15 years and is well known for her contributions to low Reynolds number hydrodynamics. Building on the basics of continuum mechanics, this book is ideal for graduate students specializing in chemical or mechanical engineering, material science, bioengineering, and physics of condensed matter.
Fundamental Principles. General Properties of Stokes Flows. Two-Dimensional Stokes Flow. Lubrication Flows. Free Surface Films. Motion of a Solid Particle in a Fluid. Flow of Bubbles and Droplets. General Solutions of the Stokes Equations. Introduction to Suspension Mechanics. O(Re) Correction to Some Stokes Solutions. Non-Newtonian Fluids. Appendix A Notations. Appendix B Curvilinear Coordinates. Bibliography. Index.
Dominique Barthès-Biesel graduated from Ecole Centrale Paris and then earned a PhD in chemical engineering from Stanford University. She has been a professor at both Ecole Polytechnique and at Compiègne University of Technology, where she taught various classes in classical and complex fluid mechanics, biomechanics, and microfluidics. Professor Barthès-Biesel’s field of interest is fluid mechanics with a special emphasis on suspensions of deformable particles such as drops, cells, and capsules. She is well-known for her pioneering work on the motion and deformation of encapsulated droplets. She has directed 27 PhD theses, published over 70 papers, and also worked on industrial projects.
