Number of hours
- Lectures 15.0
- Projects 0
- Tutorials 21.0
- Internship 0
- Laboratory works 0
ECTS
ECTS 2.0
Goal(s)
Deepen the knowledge of the different modes of heat transfer and comparisons between them
Assimilate the methodology for solving a complex problem (make the right assumptions and understand the orders of magnitude of the phenomena)
Contact Arthur DESPRES, Yves DELANNOYContent(s)
I Heat transfer fundamentals
- Quiz 1: to be completed in the week following the first class
- TD 1: exercises on energy balance and exchange law
II Radiation
- Quiz 2: to be completed in the week following the second class
- TD 2: radiation exercises
III Conduction
- Quiz 3: to be completed within one week of the third class
- TD 3: conduction/thermal resistance exercises
- TD 4: transient conduction exercises
IV Forced convection
- Quiz 4: to be completed within one week of the third class
- TD 5: forced convection/boundary layer exercises
V Free convection
- Quiz 5: to be completed within one week of the third class
- TD 6: exercises on free convection / mixed convection
TD7: problems
Prerequisites
Fundamentals of thermodynamics (energy balances)
Ordinary differential equations, concepts of partial differential equations
1st session:
- written exam (2h): weight 80%
Handout and written notes authorized
Hand calculator needed
- continuous assessment: weight 20%
5 online quizzes (one per course)
to be passed in the week following each course
2nd session:
written exam (2h) with the same conditions as in the 1st session
This course brings 1.0 ECTS to students in Engineer APPRENTISSAGE MEP 1Y
Fundamentals of heat and mass transfer. 4th edition. F.P. Incropera, D.P. DeWitt. John Wiley & Sons, USA (1996)
Transferts thermiques. A.M.Bianchi, Y.Fautrelle,J.Etay. Presses polytechniques et universitaires romandes, Lausanne (2004)
A heat transfer textbook, 4th edition J.H.LienhardIV, J.H.LienhardV. (A télécharger gratuitement sur http://web.mit.edu/lienhard/www/ahtt.html (2011))