Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and nanofluids.
Heat Transfer: A Systematic Learning Approach presents valuable tools in understanding heat transfer mechanisms and provides a clear understanding of complex turbulent flows. It provides a comprehensive introduction to topics of heat transfer, including conduction, convection, thermal radiation, and nanofluids.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr.-Ing. Naseem Uddin, CEng MIMechE, MIEAust CPENG, earned his PhD in aerospace engineering from Universität Stuttgart, Germany in 2008. He is a Senior Assistant Professor in the Mechanical Engineering Programme, Universiti Teknologi Brunei, Brunei (UTB), Brunei Darussalam. Previously, he worked as a full professor at NED University of Engineering and Technology, Pakistan. Dr. Naseem is a registered chartered engineer with Engineers Australia and the Institution of Mechanical Engineers, UK. He is also listed in the National Engineering Register (NER) of Australia and recognized as a professional engineer by the board of professional engineers of Queensland, Australia and by the Pakistan Engineering Council. He is a member of the American Society of Mechanical Engineers (ASME), US. He teaches fluid mechanics to both graduate and undergraduate students at UTB, and his research interests are in the areas of heat transfer and computational turbulence. He authored Fluid Mechanics: A Problem-Solving Approach, CRC Press, 2022.
Inhaltsangabe
1. The Heat Transfer. 2. Heat Conduction Equation. 3. Steady State One Dimensional Heat Conduction. 4. Steady State Two Dimensional Heat Conduction. 5. Transient Heat Conduction. 6. Heat Conduction Analysis Using Finite Difference Technique. 7. Fundamentals of Convective Heat Transfer. 8. Forced Convection: Internal Flows. 9. Forced Convection Along Flat Surface. 10. Forced Convection on Curved Surfaces. 11. Natural and Mixed Convection. 12. Heat Transfer Along Phase Change. 13. Fundamentals of Thermal Radiation. 14. Thermal Radiation Exchange Between Surfaces. 15. Heat Exchangers. Appendix A. Thermal Properties of Selected Metallic Elements. Appendix: Interpolation Using the Jupyter Note Book. Index.
