E-Book, Englisch, 692 Seiten
Reihe: Heat Transfer
Janna Engineering Heat Transfer, Third Edition
3. Auflage 2011
ISBN: 978-1-4200-7203-7
Verlag: Taylor & Francis
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
E-Book, Englisch, 692 Seiten
Reihe: Heat Transfer
ISBN: 978-1-4200-7203-7
Verlag: Taylor & Francis
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Most heat transfer texts include the same material: conduction, convection, and radiation. How the material is presented, how well the author writes the explanatory and descriptive material, and the number and quality of practice problems is what makes the difference. Even more important, however, is how students receive the text. Engineering Heat Transfer, Third Edition provides a solid foundation in the principles of heat transfer, while strongly emphasizing practical applications and keeping mathematics to a minimum.
New in the Third Edition:
- Coverage of the emerging areas of microscale, nanoscale, and biomedical heat transfer
- Simplification of derivations of Navier Stokes in fluid mechanics
- Moved boundary flow layer problems to the flow past immersed bodies chapter
- Revised and additional problems, revised and new examples
- PDF files of the Solutions Manual available on a chapter-by-chapter basis
The text covers practical applications in a way that de-emphasizes mathematical techniques, but preserves physical interpretation of heat transfer fundamentals and modeling of heat transfer phenomena. For example, in the analysis of fins, actual finned cylinders were cut apart, fin dimensions were measures, and presented for analysis in example problems and in practice problems. The chapter introducing convection heat transfer describes and presents the traditional coffee pot problem practice problems. The chapter on convection heat transfer in a closed conduit gives equations to model the flow inside an internally finned duct. The end-of-chapter problems proceed from short and simple confidence builders to difficult and lengthy problems that exercise hard core problems solving ability.
Now in its third edition, this text continues to fulfill the author’s original goal: to write a readable, user-friendly text that provides practical examples without overwhelming the student. Using drawings, sketches, and graphs, this textbook does just that.
PDF files of the Solutions Manual are available upon qualifying course adoptions.
Zielgruppe
Upper level undergraduate students in mechanical, chemical, and aerospace engineering.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Fundamental Concepts
Mechanisms of Heat Transfer
Dimensions and Units
Fourier’s Law of Heat Conduction
Thermal Conductivity
Convection Heat Transfer
Convection Heat-Transfer Coefficient
Radiation Heat Transfer
Emissivity and Other Radiative Properties
Combined Heat-Transfer Mechanisms
Steady-State Conduction in One Dimension
One-Dimensional Conduction Equation
Plane Geometry Systems
Polar Cylindrical Geometry Systems
Spherical Geometry Systems
Thermal Contact Resistance
Heat Transfer from Extended Surfaces
Steady-State Conduction in Multiple Dimensions
General Conduction Equation
Analytical Method of Solution
Graphical Method of Solution
Conduction Shape Factor
Solution by Numerical Methods (Finite Differences)
Numerical Method of Solution for Two-Dimensional Problems
Methods of Solving Simultaneous Equations
Unsteady-State Heat Conduction
Systems with Negligible Internal Resistance
Systems with Finite Internal and Surface Resistances
Solutions to Multidimensional Geometry Systems
Approximate Methods of Solution to Transient-Conduction Problems
Introduction to Convection
Fluid Properties
Characteristics of Fluid Flow
Equations of Fluid Mechanics
Thermal-Energy Equation
Applications to Laminar Flows
Applications to Turbulent Flows
Natural-Convection Problem
Dimensional Analysis
Convection Heat Transfer in a Closed Conduit
Heat Transfer to and from Laminar Flow in Circular Conduit
Heat Transfer to and from Turbulent Flow in Circular Conduit
Heat-Transfer Correlations for Flow in Noncircular Ducts
Convection Heat Transfer in Flows Past Immersed Bodies
Boundary-Layer Flow
Turbulent Flow over Flat Plate
Flow Past Various Two-Dimensional Bodies
Flow Past a Bank of Tubes
Flow Past a Sphere
Natural-Convection Systems
Natural Convection on a Vertical Surface: Laminar Flow
Natural Convection on a Vertical Surface: Transition and Turbulence
Natural Convection on an Inclined Flat Plate
Natural Convection on a Horizontal Flat Surface
Natural Convection on Cylinders
Natural Convection around Spheres and Blocks
Natural Convection about an Array of Fins
Combined Forced- and Natural-Convection Systems
Heat Exchangers
Double-Pipe Heat Exchangers
Shell-and-Tube Heat Exchangers
Effectiveness–Number of Transfer Units Method of Analysis
Crossflow Heat Exchangers
Efficiency of a Heat Exchanger
Condensation and Vaporization Heat Transfer
Condensation Heat Transfer
Boiling Heat Transfer
Introduction to Radiation Heat Transfer
Electromagnetic Radiation Spectrum
Emission and Absorption at the Surface of an Opaque Solid
Radiation Intensity
Irradiation and Radiosity
Radiation Laws
Characteristics of Real Surfaces
Radiation Heat Transfer between Surfaces
View Factor
Methods for Evaluating View Factors
Radiation Heat Transfer within Enclosure of Black Surfaces
Radiation Heat Transfer within an Enclosure of Diff use-Gray Surfaces
Bibliography and Selected References
Appendices
Index
