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Applications of Mathematical Heat Transfer and Fluid Flow Models in Engineering and Medicine /
Applications of mathematical heat transfer and fluid flow models in engineering and medicine Abram S. Dorfman, University of Michigan, USA Engineering and medical applications of cutting-edge heat and flow models This book presents innovative efficient methods in fluid flow and heat transfer develop...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Wiley,
2016.
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| Edición: | 1st |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright
- Dedication
- Contents
- Series Preface
- Preface
- Acknowledgments
- About the Author
- Nomenclature
- Part I Applications in Conjugate Heat Transfer
- Chapter 1 Universal Functions for Nonisothermal and Conjugate Heat Transfer
- 1.1 Formulation of Conjugate Heat Transfer Problem
- 1.2 Methods of Conjugation
- 1.3 Integral Universal Function (Duhamel's Integral)
- 1.4 Differential Universal Function (Series of Derivatives)
- 1.5 General Forms of Universal Function
- 1.6 Coefficients gk and Exponents C1 and C2 for Laminar Flow
- 1.7 Universal Functions for Turbulent Flow
- 1.8 Universal Functions for Compressible Low
- 1.9 Universal Functions for Power-Law Non-Newtonian Fluids
- 1.10 Universal Functions for Moving Continuous Sheet
- 1.11 Universal Functions for a Plate with Arbitrary Unsteady Temperature Distribution
- 1.12 Universal Functions for an Axisymmetric Body
- 1.13 Inverse Universal Function
- 1.14 Universal Function for Recovery Factor
- Chapter 2 Application of Universal Functions
- 2.1 The Rate of Conjugate Heat Transfer Intensity
- 2.2 The General Convective Boundary Conditions
- 2.3 The Gradient Analogy
- 2.4 Heat Flux Inversion
- 2.5 Zero Heat Transfer Surfaces
- 2.6 Optimization in Heat Transfer Problems
- Chapter 3 Application of Conjugate Heat Transfer Models in External and Internal Flows
- 3.1 External Flows
- 3.2 Internal Flows-Conjugate Heat Transfer in Pipes and Channels Flows
- Chapter 4 Specific Applications of Conjugate Heat Transfer Models
- 4.1 Heat Exchangers and Finned Surfaces
- 4.2 Thermal Treatment and Cooling Systems
- 4.3 Simulation of Industrial Processes
- 4.4 Technology Processes
- Part II Applications in Fluid Flow
- Chapter 5 Two Advanced Methods
- 5.1 Conjugate Models of Peristaltic Flow
- 5.2 Methods of Turbulence Simulation.
- Chapter 6 Applications of Fluid Flow Modern Models
- 6.1 Applications of Fluid Flow Models in Biology and Medicine
- 6.2 Application of Fluid Flow Models in Engineering
- Part III Foundations of Fluid Flow and Heat Transfer
- Chapter 7 Laminar Fluid Flow and Heat Transfer
- 7.1 Navier-Stokes, Energy, and Mass Transfer Equations
- 7.2 Initial and Boundary Counditions
- 7.3 Exact Solutions of Navier-Stokes and Energy Equations
- 7.4 Cases of Small and Large Reynolds and Peclet Numbers
- 7.5 Exact Solutions of Boundary Layer Equations
- 7.6 Approximate Karman-Pohlhausen Integral Method
- 7.7 Limiting Cases of Prandtl Number
- 7.8 Natural Convection
- Chapter 8 Turbulent Fluid Flow and Heat Transfer
- 8.1 Transition from Laminar to Turbulent Flow
- 8.2 Reynolds Averaged Navier-Stokes Equation (RANS)
- 8.3 Algebraic Models
- 8.4 One-Equation and Two-Equations Models
- Chapter 9 Analytical and Numerical Methods in Fluid Flow and Heat Transfer
- 9.1 Solutions Using Error Functions
- 9.2 Method of Separation Variables
- 9.3 Integral Transforms
- 9.4 Green's Function Method
- 9.5 What Method is Proper?
- 9.6 Approximate Methods for Solving Differential Equations
- 9.7 Computing Flow and Heat Transfer Characteristics
- Chapter 10 Conclusion
- References
- Author Index
- Subject Index
- EULA.