Engineering fluid mechanics
著者
書誌事項
Engineering fluid mechanics
(Fluid mechanics and its applications, v. 85)
Springer, c2008
- : HB
大学図書館所蔵 全10件
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
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.
目次
- 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
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