Number of hours
- Lectures 10.5
- Projects -
- Tutorials 4.5
- Internship -
- Laboratory works -
ECTS
ECTS 17.0
Goal(s)
Learning outcomes :
To know the theories of Material Transfer processes (material balance, diffusion, convection, dimensionless numbers, height of transfer unit,...)
Responsible(s)
Marc AUROUSSEAU
Content(s)
Fundamentals of mass transfer – calculations - applications
Mass transfer fundamentals: origin and physics
Monophase mass transfer, case of diffusion and convection
Multi-phase mass transfer
Mass exchangers: basic approach and parameters
Applications, case examples, problems
Physics and chemistry at 1st level (bac+2)
Course Introduction to transport phenomena at pagora
Test
A 1.5 hour written exam.
Written notes (courses/TP/TD) authorized. Copies of books or previous exams are banned.
Examination compensatable.
note = note du DS
Calendar
The course exists in the following branches:
- Curriculum - Pagora Engineer - Student - Semester 6
Additional Information
Course ID : 3FME1024
Course language(s): 
You can find this course among all other courses.
Environmental security
Déroulement de l’enseignement en salle de cours standard.
Sécurité : RAS
Environnement : RAS
Bibliography
CRANK J. The mathematics of diffusion. Oxford : Clarendon press, : Oxford university press, 1979.
PERRY R., GREEN D.W., MALONEY J.O. Perry's chemical engineer's handbook. New York : McGraw-Hill, 1997
BIRD B., STEWART W.E., LIGHTFOOT E.N. Transport phenomena. New York : Wiley&Sons, 1962.
MIDDLEMAN S. An introduction to mass and heat transfer. Principles of analysis and design. New York : Wiley&Sons, 1998.
BRODKEY R. S., HERSHEY H.C. Transport phenomena: a unified approach. New York : McGraw Hill-College, 1988.
DEEN W.M. Analysis of transport phenomena. Oxford : Oxford University Press, 1998.
COEURET F., STORCK A. Eléments de génie électrochimique. Paris : Lavoisier Tec & Doc, 1984.