Engineering Fluid Mechanics (eBook)

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eBook Download: PDF
2008 | 2008
XIV, 580 Seiten
Springer Netherlands (Verlag)
978-1-4020-6742-6 (ISBN)

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Engineering Fluid Mechanics -  H. Yamaguchi
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A real boon for those studying fluid mechanics at all levels, this work is intended to serve as a comprehensive textbook for scientists and engineers as well as advanced students in thermo-fluid courses. It provides an intensive monograph essential for understanding dynamics of ideal fluid, Newtonian fluid, non-Newtonian fluid and magnetic fluid. These distinct, yet intertwined subjects are addressed in an integrated manner, with numerous exercises and problems throughout.


This book is intended for advanced engineering students in university or college and could serve as a reference for practical engineers. In recent years the development of fluid machineries has required a wider range of study in order to achieve a new level of developmental and conceptual progress. The field of fluid engineering is quite diverse in the sense that so many variations of flow exist in fluid machinery or an installation, whose characteristics are wholly dependent upon the flow field which is det- mined by the function of the machine setting itself. One who is studying fluid engineering, for the purpose of gaining a working knowledge of fluid machineries and their relevant installations, must understand not only the type of fluids used in practice, but also the fundamental flow problems - sociated with actual fluid machineries. Hence, the intended purpose of this book is to provide the fundamental and physical aspects of fluid mechanics and to develop engineering practice for fluid machineries. The subject of fluid engineering is most often approached at the senior undergraduate or postgraduate level of study. At this stage, the student or practical engineer is assumed to already have a basic mathematical ba- ground of vector and tensor analysis with a fair understanding of elem- tary fluid mechanics, such as Bernoulli equation, potential flow, and Poiseuille flow.

Introduction; Preface; 1. Fundamentals in Continuum Mechanics; 1.1 Dynamics of fluid motion; 1.2 Dynamics in rotating reference frame; 1.3 Material objectivity and convective derivatives; 1.4 Displacement gradient and relative strain; 1.5 Reynold’s transport theorem; 1.6 Forces on volume element; Exercise; Problems; Bibliography; Nomenclature for chapter 1; 2. Conservation equations in continuum mechanics; 2.1 Mass conservation; 2.2 Linear momentum conservation; 2.3 Angular momentum conservation; 2.4 Energy conservation; 2.5 Thermodynamic relations; Exercise; Problems; Bibliography; Nomenclature for chapter 2; 3. Fundamental Treatment for Fluid Engineering; 3.1 Fluid static; 3.1 Fluid-fluid interfaces; Exercise; Problems; Bibliography; Nomenclature for chapter 3; 4. Perfect flow; 4.1 Potential and inviscid flows; Exercise; Problems; 4.2 General theories of turbomachinery; 4.2.1 Moment of momentum theory; 4.2.2 Airfoil theory; 4.2.3 Efficiency and similarity rules of turbomachinery; 4.2.4 Cavitation; Exercise; Problems; Bibliography; Nomenclature for chapter 4; 5. Compressible flow; 5.1 Speed of sound and Mach number; 5.2 Isoentropic flow; 5.3 Fanno and Reyleigh lines; 5.4 Normal shock waves; 5.5 Oblique shock wave; Exercise; Problems; Bibliography; Nomenclature for chapter 5; 6. Newtonian flow; 6.1 Navier-Stokes Equation; Problems; 6.2 Similitude and Nondimensionalization; Exercise; Problems; 6.3 Basic flows derived from Navier-Stokes equation; 6.3.1 Unidirectional flow in a gap space; 6.3.2 Lubrication theory; 6.3.3 Flow around sphere; Problems; 6.4 Flow through pipe; 6.4.1 Entrance flow; 6.4.2 Fully developed flow pipe; 6.4.3 Transient Hagen-Poiseuille flow in pipe; Exercise; Problems; 6.5 Laminar boundary layer theory; 6.5.1 Flow over a flat plate; 6.5.2 Integral Analysis of Boundary Layer equation; 6.5.3 Boundary layer separation; 6.5.4 Integral relation for thermal energy; Exercise; Problems; 6.6Turbulent flow; 6.6.1 Turbulence models; 6.6.2 Turbulence heat transfer; Exercise; Problems; Bibliography; Nomenclature for chapter 6; 7. Non-Newtonian fluid and flow; 7.1 Non-Newtonian fluid and generalized Newtonian fluid flow; 7.1.1 Rheological classifications; 7.1.2 Generalized Newtonian fluid flow; Exercise; Problems; 7.2 Standard flow and material functions; 7.2.1 Simple shear flow; 7.2.2 Shearfree flow; 7.2.3 Oscillatory rheometric flow; 7.2.4 Viscometric flow in rheomery; Exercise; Problems; 7.3 Viscoelastic fluid and flow; 7.3.1 Linear viscoelastic rheological equation; 7.3.2 Linear and nonlinear viscoelastic models; 7.3.3 Viscoelastic models to standard flow and application to some engineering flow problems; 7.3.3.1 UCM, CRM and Giesekus equation; 7.3.3.2 Unidirectional basic flow problems; Exercise; Problems; Bibliography; Nomenclature for chapter 7; 8. Magnetic fluid and flow; 8.1 Thermophysical properties; Exercise; Problems; 8.2 Ferrohydrodynamics equation; Exercise; Problems; 8.3 Basic flows and applications; 8.3.1 Generalized Bernoulli equation; 8.3.2 Hydrostatics; 8.3.3 Thermoconvective phenomena; Exercise; Problems; Bibliography; Nomenclature for chapter 8

Erscheint lt. Verlag 3.2.2008
Reihe/Serie Fluid Mechanics and Its Applications
Fluid Mechanics and Its Applications
Zusatzinfo XIV, 580 p.
Verlagsort Dordrecht
Sprache englisch
Themenwelt Naturwissenschaften Physik / Astronomie Elektrodynamik
Naturwissenschaften Physik / Astronomie Festkörperphysik
Technik Bauwesen
Technik Maschinenbau
Schlagworte complex fluids • Continuum Mechanics • Design • Development • Fluid Dynamics • Fluid engineering • fluid mechanics • mechanical engineering • Mechanics • Navier-Stokes Equation • Rhe
ISBN-10 1-4020-6742-9 / 1402067429
ISBN-13 978-1-4020-6742-6 / 9781402067426
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