Phelma Formation 2022

Thermal transfert & heat exchanges - 4PMGEDC2

  • Number of hours

    • Lectures 14.0
    • Projects 0
    • Tutorials 10.0
    • Internship 0
    • Laboratory works 0

    ECTS

    ECTS 2.5

Goal(s)

First approach of heat exchangers

  • theory (phénomena, physical laws)
  • practical (technology overview, design methods)
Contact Yves DELANNOY

Content(s)

Local analysis of heat exchangers

  • Local heat transfer: conduction and convection
  • Thermal heat balance on each branch
  • Mean logarithmic temperature difference

Design methods

  • Efficiency
  • Number of transfer units
  • Practical use, diagrams

Technological overview of heat exchangers



Prerequisites

Heat transfer: steady conduction, forced convection
Fluid mechanics: balance equations, notion of head loss

Test

1st session: written exam EXAM1 - 2h + Quizzes "CONTROLE CONTINU"
2nd session: oral or written exam (depending on the number of students) EXAM2



Note Session 1 si présentiel = 33% Contrôle continu (transf.therm.) + 67% Examen (échangeurs)
Note Session 1 si confinement = 33% Contrôle continu (transf.therm.) + 67% QCM long (échangeurs)
Note Session 2 si présentiel = 100% Examen de 2eme session
Note Session 2 si confinement = 100% QCM long de 2ème session

Additional Information

This course brings 1.0 ECTS to students in UE Energy 1

This course brings 1.0 ECTS to students in UE Energy and Materials

This course brings 1.0 ECTS to students in UE Digital Tools, Energy and Proces

Course list
Curriculum->Engineering degree->Semester 7
Curriculum->Apprentissage MEP->Semester 7

Bibliography

Incropera, DeWitt: Fundamentals of Heat and Mass Transfer
Bird, Stewart, Lightfoot : Transport Phenomena