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)
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 Digital Tools, Energy and Proces
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
Course list
Curriculum->Apprentissage MEP->Semester 7
Curriculum->Physics and Nuclear Engineering->Semester 7
Bibliography
Incropera, DeWitt: Fundamentals of Heat and Mass Transfer
Bird, Stewart, Lightfoot : Transport Phenomena