Getting to know with the general models of transport of matter, momentum and heat, mastering the methods of analysis and training for independent scientific work and solving real engineering problems.

Capability for independent research and monitoring developments in the field of transport of matter, momentum and heat as well as mastering appropriate calculation procedures.

Molecular transport, laws of molecular transport – analogies between transport of matter, momentum and heat. Steady and unsteady heat and mass transport, proper dimensionless criteria. Convective transport, differential equations of balance of mass, momentum and energy. Laminar and turbulent, internal and external flow. Velocity, temperature and concentration boundary layer. Coefficients of friction, heat and mass transport – dependencies on the proper dimensionless criteria. Review of the most significant analogies of matter, momentum and heat transport in turbulent flow (Reynolds, Prandtl-Taylor, von Karman, Martinelli, Chilton-Colburn et al).

-

Passed exams at lower levels of study in fluid mechanics, heat transport and transport phenomena.

-

Total assigned hours: 65

New material: 35
Elaboration and examples (recapitulation): 15

Auditory exercises: 0
Laboratory exercises: 0
Calculation tasks: 0
Seminar paper: 0
Project: 0
Consultations: 0
Discussion/workshop: 0
Research study work: 0

Review and grading of calculation tasks: 0
Review and grading of lab reports: 0
Review and grading of seminar papers: 10
Review and grading of the project: 0
Test: 0
Test: 0
Final exam: 5

Activity during lectures: 0
Test/test: 0
Laboratory practice: 0
Calculation tasks: 0
Seminar paper: 60
Project: 0
Final exam: 40
Requirement for taking the exam (required number of points): 40

D. Basmadjian: Mass Transfer – Principles and Applications, CRC Pres, 2003.; А. Bejan, A. Kraus: Heat Transfer Handbook, John Wiley & Sons, 2003.; Y. A. Cengel: Heat transfer – A Practical Approach, McGraw-Hill, 2003.; Incropera, DeWitt, Bergman, Lavine: Fundamentals of Heat and Mass Transfer, J. Wiley & Sons, 2004.; C. O. Bennet, J. E. Myers: Momentum, Heat, and Mass Transfer, McGraw Hill, 1982.