Handbook of Heat Transfer by Warren M. Rohsenow, James P. Hartnett, Young I. Cho
Handbook of Heat Transfer provides full information on all heat transfer principles with special coverage of microscale heat transfer, heat transfer in materials processing, new heat transfer augmentation techniques, thermophysical properties of new refrigerants, innovative heat exchanger methods.
Contents
1. Basic Concepts of Heat Transfer
2. Thermophysical Properties
3. Conduction and Thermal Contact Resistances
4. Natural Convection
5. Forced Convection, Internal Flow in Ducts
6. Force Convection, External Flows
7. Radiation
8. Microscale Transport Phenomena
9. Heat Transfer in Porous Media
10. Nonnewtonian Fluids
11. Techniques to Enhance Heat Transfer
12. Heat Pipes
13. Heat Transfer in Packed and Fluidized Beds
14. Condensation
15. Boiling
16. Measurement of Temperature and Heat Transfer
17. Heat Exchangers
18. Heat Transfer in Materials Processing
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Heat Transfer by Jack P. Holman
As one of the most popular heat transfer texts, Jack Holman’s “Heat Transfer” is noted for its clarity, accessible approach, and inclusion of many examples and problem sets. The new tenth edition retains the straight-forward, to-the-point writing style while covering both analytical and empirical approaches to the subject. Throughout the book, emphasis is placed on physical understanding while, at the same time, relying on meaningful experimental data in those situations that do not permit a simple analytical solution. New examples and templates provide students with updated resources for computer-numerical solutions.
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Convective Heat Transfer by I. Pop, D.B. Ingham
Such idealised geometries also provide a test ground for checking the validity of theoretical analyses. Consequently, an immense research effort has been expended in exploring and understanding the convective heat and mass transfer processes between a fluid and submerged objects of various shapes. Among several geometries which have received considerable attention are plates, circular and elliptical cylinders, and spheres, although much information is also available for some other bodies, such as corrugated surfaces or bodies of relatively complicated shapes.
The book is a unified progress report which captures the spirit of the work in progress in boundary-layer heat transfer research and also identifies potential difficulties and areas for further study. In addition, this work provides new material on convective heat and mass transfer, as well as a fresh look at basic methods in heat transfer. Extensive references are included in order to stimulate further studies of the problems considered. A state-of-the-art picture of boundary-layer heat transfer today is presented by listing and commenting also upon the most recent successful efforts and identifying the needs for further research.
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Engineering Heat Transfer by William S. Janna
Most of the texts on heat transfer available in recent years have focused on the mathematics of the subject, typically at an advanced level. Engineering students and engineers who have not moved immediately into graduate school need a reference that provides a strong, practical foundation in heat transfer-one that emphasizes real-world problems and helps develop their problem-solving skills. Engineering Heat Transfer fills that need.
Extensively revised and thoroughly updated, the Second Edition of this popular text continues to de-emphasize high level mathematics in favor of effective, accurate modeling. A generous number of real-world examples amplify the theory and show how to use derived equations to model physical problems. Exercises that parallel the examples build readers’ confidence and prepare them to effectively confront the more complex situations they encounter as professionals.
Concise and user-friendly, Engineering Heat Transfer covers conduction, convection, and radiation heat transfer in a manner that does not overwhelm the reader and is uniquely suited to the actual practice of engineering.
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Radiative Heat Transfer by Michael F. Modest
Every chapter of Radiative Heat Transfer offers uncluttered nomenclature, numerous worked examples, and a large number of problems – many based on “real world” situations, making it ideal for classroom use as well as for self-study. The book’s 22 chapters cover the four major areas in the field: surface properties; surface transport; properties of participating media; and transfer through participating media. Within each chapter, all analytical methods are developed in substantial detail, and a number of examples show how the developed relations may be applied to practical problems.
Extensive solution manual for adopting instructors
Most complete text in the field of radiative heat transfer
Many worked examples and end-of-chapter problems
Most complete text in the field of radiative heat transfer
Many worked examples and end-of-chapter problems
Covers experimental methods
Large number of computer codes (in Fortran and C++), ranging from basic problem solving aids to sophisticated research tools
Large number of computer codes (in Fortran and C++), ranging from basic problem solving aids to sophisticated research tools
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Covers experimental methods
A Heat Transfer Textbook, 3rd Edition by John H. Lienhard IV
This textbook is an introduction to heat and mass transfer oriented toward engineering students. The subjects covered include heat conduction, forced and natural convection, thermal radiation, boiling, condensation, heat exchangers, and mass transfer. The book includes worked examples and end-of-chapter exercises.
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