Heat and mass transfer II

lmeca2854  2021-2022  Louvain-la-Neuve

Heat and mass transfer II
5.00 crédits
30.0 h + 30.0 h
Q2
Enseignants
Bartosiewicz Yann; Duponcheel Matthieu;
Langue
d'enseignement
Anglais
Préalables
Students are expected to master the following skills: the basics of Continuum mechanics, as they are covered within the course LMECA1901, the basics of Thermodynamics, as they are covered within the course LMECA1855, and the basics of Fluid mechanics and heat transfer, as they are covered within the course LMECA1321
Thèmes abordés
This course presents the physics of heat and mass transfer phenomena and the tools used by engineers to compute transfers in practical applications. The course complements to the prerequisite knowledge of conductive and convective heat transfer and presents the basis of radiative heat transfer and of mass transfer. The heat exchanger application is presented because of its importance in engineering and because it allows to familiarize the students with more complex heat transfer problems with combined heat transfer mechanisms.
Acquis
d'apprentissage

A la fin de cette unité d’enseignement, l’étudiant est capable de :

1 In view of the LO frame of reference of the "Master Mechanical Engineering", this course contributes to the development, acquisition and evaluation of the following learning outcomes:
LO1.1; LO1.2; LO1.3
L02.1; LO2.2; LO2.4; LO2.5
LO3.2
LO4.2; LO4.4
LO5.3; LO5.4; LO5.5
LO6.1; LO6.3
Specific learning outcomes of the course
At the end of this learning unit, the student is be able to:
  • Identify the different heat transfer modes in complex situations
  • Understand the physics of heat and mass transfer phenomena
  • Establish thermal/mass balance equations
  • Computein simple geometries using analytical solutions or correlations, heat transfer
    • by conduction
    • by convection; including phase change
    • by radiation between surfaces
  • Compute, in simple geometries using analytical solutions or correlations, mass transfers in binary mixtures and related energy exchanges
  • Consider the use of numerical tools for complex geometries
  • Assess or design devices combining different heat and mass transfer mechanisms
 
Contenu
  • Eléments avancés de transfert de chaleur convectif et conductif
  • Echangeurs de chaleur
  • Ebullition et condensation
  • Transfert de chaleur radiatif 
  • Transfert de masse
Méthodes d'enseignement
  • Cours magistraux
  • Séances d'exercices
  • Laboratoire
Modes d'évaluation
des acquis des étudiants
  • Examen écrit (85%)
  • Laboratoire (15%)
La participation au laboratoire est obligatoire. Les titulaires du cours pourront, en vertu de l'article 72 du Règlement général des études et examens, proposer au jury de s'opposer à l'inscription d'un·e étudiant·e qui n'aurait pas participé au laboratoire, lors de la session de juin ou de septembre.
Bibliographie
  • T. Bergman, A. Lavine, F. Incropera, D. Dewitt, Incropera's principles of heat and mass transfer, 8th Edition, Global Edition, 2017
  • M. N. O'zisik, Heat Transfer, a Basic Approach, McGraw-Hill, 1985
  • Y. Cengel, Heat Transfer, a Practical Approach, 2nd Edition, McGraw-Hill, 2003
  • A. Bejan, "Heat transfer", Wiley, 1993.
  • R.B. Bird, W.E. Stewart., E.N. Lighfoot , "Transport phenomena", Wiley int. ed., 1960.
  • N. Todreas & M. Kazimi, Nuclear Systems, Volume 1, Thermal Hydraulics Fundamentals, 2nd Edition, CRC Press, 2011
  • M. F. Modest, Radiative Heat Transfer, 2nd Edition, Academic Press, 2003
Support de cours
  • Slides and reference book (Bergman et al., incropera's principles of heat and mass transfer, Wiley)
Faculté ou entité
en charge
MECA


Programmes / formations proposant cette unité d'enseignement (UE)

Intitulé du programme
Sigle
Crédits
Prérequis
Acquis
d'apprentissage
Master [120] : ingénieur civil mécanicien

Master [120] : ingénieur civil électromécanicien

Master [120] en sciences physiques

Master [120] : ingénieur civil des constructions