Heat transfer is a mandatory basic course for students in energy and power engineering, chemical engineering, mechanical engineering, etc. It covers (1) the physical concepts, characteristics and basic laws of conduction, convection and radiation, (2) the methods to discern relevant heat transfer problems, make simplifying assumptions for a variety of practical situations, identify key dependent or independent variables, choose or develop appropriate correlations or expressions for analyzing related heat transfer problems, perform a shell-and-tube heat exchangers thermal analysis, and understand how to enhance or weaken the heat transfer.
Overview
Syllabus
- Chapter 1. Introduction
- Chapter 2. Steady Heat Conduction
- Chapter 3. Transient Heat Conduction
- Chapter 4. Numerical Methods in Heat Conduction
- Chapter 5. Fundamentals of Theoretical Analysis and Experimental Study in Convective Heat Transfer
- Chapter 6. Experimental Correlations of Single Phase Convective Heat Transfer
- Chapter 7. Condensation and Boiling Heat Transfer
- Chapter 8. Basic Laws and Properties of Thermal Radiation
- Chapter 9. Radiation Heat Transfer
- Chapter 10. Overall Heat Transfer Process and Heat Exchangers
Taught by
TAO Wen-Quan, WANG Qiu-Wang, WU Yi-Ning, LI Zeng-Yao, TANG Gui-Hua, ZENG Min, QU Zhi-Guo, ZHANG Jian-Fei, YANG Jian, JI Wen-Tao, MA Ting, CHEN Li, ZHAO Cun-Lu, and CHEN Lei