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Advanced Fluid Mechanics
First text covering all major aspects of advanced fluid mechanics in a single volume.
William Graebel (Author)
9780123708854, Elsevier Science
Hardback, published 10 August 2007
368 pages
26 x 18.3 x 2.5 cm, 0.85 kg
Fluid mechanics is the study of how fluids behave and interact under various forces and in various applied situations, whether in liquid or gas state or both. The author of Advanced Fluid Mechanics compiles pertinent information that are introduced in the more advanced classes at the senior level and at the graduate level. “Advanced Fluid Mechanics? courses typically cover a variety of topics involving fluids in various multiple states (phases), with both elastic and non-elastic qualities, and flowing in complex ways. This new text will integrate both the simple stages of fluid mechanics (“Fundamentals?) with those involving more complex parameters, including Inviscid Flow in multi-dimensions, Viscous Flow and Turbulence, and a succinct introduction to Computational Fluid Dynamics. It will offer exceptional pedagogy, for both classroom use and self-instruction, including many worked-out examples, end-of-chapter problems, and actual computer programs that can be used to reinforce theory with real-world applications. Professional engineers as well as Physicists and Chemists working in the analysis of fluid behavior in complex systems will find the contents of this book useful. All manufacturing companies involved in any sort of systems that encompass fluids and fluid flow analysis (e.g., heat exchangers, air conditioning and refrigeration, chemical processes, etc.) or energy generation (steam boilers, turbines and internal combustion engines, jet propulsion systems, etc.), or fluid systems and fluid power (e.g., hydraulics, piping systems, and so on)will reap the benefits of this text.
Chapter 1- Fundamentals
Chapter 2- Inviscid Irrotational Flows
Chapter 3- Irrotational Two-Dimensional Flows
Chapter 4- Surface and Interfacial Waves
Chapter 5- Exact Solutiona of the Navier-Stokes Equations
Chapter 6- The Boundary Layer Approximation
Chapter 7- Thermal Effects
Chapter 8- Low Reynolds Number Flows
Chapter 9- Flow Stability
Chapter 10- Turbulence and Transition to Turbulance
Chapter 11- An Introduction to Computational Fluid Dynamics
Chapter 12- Numerical Solution of Partial Differential Equations
Appendix- Mathematical Aids
References
Index
Subject Areas: Mechanics of fluids [TGMF], Mechanical engineering [TGB], Mechanical engineering & materials [TG], Engineering: general [TBC], Fluid mechanics [PHDF]
