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Heat Conduction, Fifth Edition, upholds its reputation as the leading text in the field for graduate students, and as a resource for practicing engineers.
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Heat Conduction, Fifth Edition, upholds its reputation as the leading text in the field for graduate students, and as a resource for practicing engineers.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- 5th edition
- Seitenzahl: 524
- Erscheinungstermin: 6. Juli 2018
- Englisch
- Abmessung: 254mm x 178mm x 30mm
- Gewicht: 1152g
- ISBN-13: 9781138943841
- ISBN-10: 1138943843
- Artikelnr.: 53454706
- Verlag: Taylor & Francis Ltd (Sales)
- 5th edition
- Seitenzahl: 524
- Erscheinungstermin: 6. Juli 2018
- Englisch
- Abmessung: 254mm x 178mm x 30mm
- Gewicht: 1152g
- ISBN-13: 9781138943841
- ISBN-10: 1138943843
- Artikelnr.: 53454706
Sadik Kakaç has been known as one of the most recognized scientists in the field of heat transfer. He received his M.S. in Mechanical Engineering in 1959, and his M.S. in Nuclear Engineering in 1960, both from the Massachusetts Institute of Technology, and his Ph.D. from the Victoria University of Manchester, UK (1965). He has authored and co-authored over 200 scientific papers, as well as leading textbooks and reference works in convective heat transfer, conduction heat transfer, microscale and nanoscale heat transfer, heat exchangers, and heat pipes. He has served as a professor of engineering at the University of Miami (Florida), and the TOBB University of Economics and Engineering (Ankara, Turkey). Carolina P. Naveira-Cotta is a professor at the Federal University of Rio de Janeiro, Rio de Janeiro, Brazil, specializing in heat transfer. Yaman Yener was a professor in the Mechanical Engineering department at Northeastern University, and a co-author of leading textbooks in convective and conductive heat transfer. Dr. Yener passed away in 2013.
Preface. Nomenclature. Foundations of Heat Transfer. General Heat Conduction Equation. One
Dimensional Steady
State Heat Conduction. The Sturm
Liouville Theory and Fourier Expansions. Steady
State Two
and Three
Dimensional Heat Conduction: Solutions with Separation of Variables. Unsteady
State Heat Conduction: Solutions with Separation of Variables. Solutions with Integral Transforms. Solutions with Laplace Transforms. Heat Conduction with Local Heat Sources. Further Analytical Methods of Solution. Heat Conduction Involving Phase Change. Numerical Solutions. Heat Conduction in Heterogeneous Media. Appendix A
Thermophysical Properties. Appendix B Bessel Functions. Appendix C
Error Function. Appendix D
Laplace Transforms. Appendix E
Exponential Integral Functions.
Dimensional Steady
State Heat Conduction. The Sturm
Liouville Theory and Fourier Expansions. Steady
State Two
and Three
Dimensional Heat Conduction: Solutions with Separation of Variables. Unsteady
State Heat Conduction: Solutions with Separation of Variables. Solutions with Integral Transforms. Solutions with Laplace Transforms. Heat Conduction with Local Heat Sources. Further Analytical Methods of Solution. Heat Conduction Involving Phase Change. Numerical Solutions. Heat Conduction in Heterogeneous Media. Appendix A
Thermophysical Properties. Appendix B Bessel Functions. Appendix C
Error Function. Appendix D
Laplace Transforms. Appendix E
Exponential Integral Functions.
Preface. Nomenclature. Foundations of Heat Transfer. General Heat Conduction Equation. One
Dimensional Steady
State Heat Conduction. The Sturm
Liouville Theory and Fourier Expansions. Steady
State Two
and Three
Dimensional Heat Conduction: Solutions with Separation of Variables. Unsteady
State Heat Conduction: Solutions with Separation of Variables. Solutions with Integral Transforms. Solutions with Laplace Transforms. Heat Conduction with Local Heat Sources. Further Analytical Methods of Solution. Heat Conduction Involving Phase Change. Numerical Solutions. Heat Conduction in Heterogeneous Media. Appendix A
Thermophysical Properties. Appendix B Bessel Functions. Appendix C
Error Function. Appendix D
Laplace Transforms. Appendix E
Exponential Integral Functions.
Dimensional Steady
State Heat Conduction. The Sturm
Liouville Theory and Fourier Expansions. Steady
State Two
and Three
Dimensional Heat Conduction: Solutions with Separation of Variables. Unsteady
State Heat Conduction: Solutions with Separation of Variables. Solutions with Integral Transforms. Solutions with Laplace Transforms. Heat Conduction with Local Heat Sources. Further Analytical Methods of Solution. Heat Conduction Involving Phase Change. Numerical Solutions. Heat Conduction in Heterogeneous Media. Appendix A
Thermophysical Properties. Appendix B Bessel Functions. Appendix C
Error Function. Appendix D
Laplace Transforms. Appendix E
Exponential Integral Functions.