Thermal Science (03_XDTHE)

• Coefficient : 1.5
• Hourly Volume: 49h (including 18h supervised)
  CTD : 18h supervised
  Out-of-schedule personal work : 31h

AATs Lists

Description

1. General: Concepts on energy exchanges

2. Modes of heat transfer in steady state and in certain cases of transient regimes

   • Conduction: fundamental laws, solutions, conduction with internal sources
   • Convection: natural convection, forced convection, parameters, semi-experimental laws

Learning Outcomes AAv (AAv)

• AAv1 [heures: 13, B3, B4] : At the end of the semester, the S3 student will be able to calculate in detail the quantities of heat exchanged between systems according to their parameters and potential phase transitions and d deduce the evolution of their temperature as a function of time for a system with a homogeneous temperature.

• AAv2 [heures: 13, B2, B3, B4] : At the end of the semester, the S3 student will be able to calculate in detail the distribution of the 1D temperature in steady and transient regimes, in a solid subjected to conduction and/or external heat sources or exchanges.

• AAv3 [heures: 13, B3, B4] : At the end of the semester, the S3 student will be able to calculate in detail the heat exchange coefficient of Newton's law of a forced conducto-convective system.

Assessment methods

One long test , average of several short tests

Key Words

Energy, heat, conduction, natural convection, forced convection, heat dissipation, radiator, fins

Prerequisites

Mathematical tools acquired in S1 and S2

Resources

Thermodynamique Diffusion thermique : cours avec exercices résolus LE HIR J. MASSON, 1997, Cote : 03.06 LEHI