Modern Fluid Dynamics (2nd Ed.)
Auteur : Kleinstreuer Clement
Modern Fluid Dynamics, Second Edition provides up-to-date coverage of intermediate and advanced fluids topics. The text emphasizes fundamentals and applications, supported by worked examples and case studies. Scale analysis, non-Newtonian fluid flow, surface coating, convection heat transfer, lubrication, fluid-particle dynamics, microfluidics, entropy generation, and fluid-structure interactions are among the topics covered. Part A presents fluids principles, and prepares readers for the applications of fluid dynamics covered in Part B, which includes computer simulations and project writing. A review of the engineering math needed for fluid dynamics is included in an appendix.
Preface
Author Bio
Section A Fluid Dynamics Fundamentals with Applications
1 Review of Basic Concepts
2 Conservation Laws with Illustrative Examples
3 Incompressible Viscous Fluid Flow Applications
Section B Modern Fluid Dynamics Topics
4 Mixture Flows
5 Basic Lubrication Systems
6 Fluid Spreading, Film Drawing, and Surface Coating
7 Microscale Fluid Dynamics
8 Fluid–Structure Interaction
9 Computational Fluid Dynamics Modeling and Simulation
10 Course Projects
Appendix I
Appendix II
Index
Clement Kleinstreuer is a Professor in the Mechanical and Aerospace Engineering and Biomedical Engineering departments at North Carolina State University in Raleigh, NC. He received his Dip. Ing degree at the Technical University, Munich; his M.S at Stanford University; and his Ph.D. at Vanderbilt University. He also serves as an Adjunct Professor in the Department of Surgery at the University of North Carolina School of Medicine in Chapel Hill, NC. He has also served as an Assistant Professor at Rensselaer Polytechnic Institute (Troy, NY), and as an Adjunct Professor at the University of Canterbury in Christchurch, NZ. Dr. Kleinstreuer is a member of ASME, the Biomedical Engineering Society, and the American Association of Aerosol Research.
Date de parution : 04-2018
17.8x25.4 cm
Thèmes de Modern Fluid Dynamics :
Mots-clés :
Wake Field; Fluid-particle dynamics; Thin Film Equation; fluid-structure interactions; Wall Shear Stress Vector; Finite element analysis; Energy Dispersive Spectrometry Patterns; lubrication; Cylindrical Couette Flow; Nanoscale fluid mechanics; Reynolds Transport Theorem; turbulence; Wall Velocity Gradient; surface coating; Apparent Dynamic Viscosity; Non-Newtonian fluid mechanics; Ordinary Differential Equation; Fluid dynamics; Steady Flow Simulation; microfluidics; Reynolds Lubrication Equation; Oscillating Flow Field; entropy generation; Power Law Fluid; Incompressible flow; Modern Fluid Dynamics; CFD; Journal Bearings; Kleinstreuer Clement; HWA; Open Source Cfd Code; Squeeze Film Lubrication; Reattachment Lengths; Microchannel Flow; Power Law Fluid Flow; Viscosity Models; Computer Model Validation; Rarefied Gases; Fluid Particle Mixture