Fundamentals of heat transfer
J Soria
4 points * 22 lectures, 18 tutorial/laboratory hours * First semester * Clayton * Prerequisites: MEC2430, MEC2480, MAT2910, MAT2920, MAT2930 * Corequisites: MEC3409
Objectives To (a) develop a basic understanding of the fundamental mechanisms of heat transfer and their underlying physical principles, as well as a recognition of their relative importance in engineering heat transfer systems, (b) develop a good knowledge of the basic physical laws governing the different fundamental heat transfer mechanisms and the concept of a control volume and (c) become competent in the application of the conservation principles of mass, momentum and energy using the control volume concept to develop differential and integral mathematical equations for the rigorous analysis of physical heat transfer processes in engineering.
Synopsis Overview of heat transfer modes; steady heat conduction, circuit analysis of steady conduction; numerical solutions. The equations of conservation of mass, momentum and energy for convection heat transfer, differential and integral analysis, non-dimensional groups and the analogy between momentum and heat transfer. Similarity, approximate and numerical solutions for forced convection boundary layer heat transfer. Convection heat transfer in tubes and channels. External flow forced convection heat transfer correlations. Laminar free convection on a vertical plate. Basics of radiation heat transfer.
Assessment Examination: 65% * Other assessment: 35%
Prescribed texts
Holman J P Heat transfer SI version, 7th edn, McGraw-Hill
Reference
Carslaw H S and Jaeger J C Conduction of heat in solids 2nd edn, OUP
Incropera F P and De Witt D P Fundamentals of heat and mass transfer 3rd edn, Wiley
| Published by Monash University, Clayton, Victoria
3168 Copyright © Monash University 1996 - All Rights Reserved - Caution Authorised by the Academic Registrar December 1996 |