617-3002/02 – Transport Phenomena (PJ)

Gurantor department	Department of Chemistry	Credits	7
Subject guarantor	prof. Ing. Kamil Wichterle, DrSc.	Subject version guarantor	prof. Ing. Kamil Wichterle, DrSc.
Study level	undergraduate or graduate	Requirement	Choice-compulsory
Year	1	Semester	summer
		Study language	Czech
Year of introduction	2017/2018	Year of cancellation	2020/2021
Intended for the faculties	FMT	Intended for study types	Follow-up Master

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
VEC05	prof. Ing. Marek Večeř, Ph.D.
WIH15	prof. Ing. Kamil Wichterle, DrSc.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Credit and Examination	3+3

Subject aims expressed by acquired skills and competences

Student: - understands essential features of nonequilibrium processes and their relation to the structure of matter, - knows the principles of transport equation construction, and can apply the equation for real problems, - can consider possibilities how to solve the related differential equations, - can specify the problems in a form adequate for numeric computation, - is able to characterize velocity, temperature and concentration fields by key parameters, suitable for engineering application.

Teaching methods

Lectures
Tutorials

Summary

Viscosity, thermal conductivity, diffusivity. Transport coefficients and structure of matter. Employment in momentum, heat and mass balance equations. steady state and unsteady processes. Solution of the equations in 3D. Initial and boundary conditions. Relation of particular solutions to actual engineering problems.

Compulsory literature:

1. BIRD R. B., STEWART W.E., LIGHTFOOT E.N.. Transport Phenomena., 905 pp, John Wiley & Sons 2007

Recommended literature:

1. BEEK W.J., MUTTZALL K. M. K., VAN HEUVEN J. W.: Transport Phenomena. 2nd edition, John Wiley & Sons Chichester 2000 2. REA’s: The transport phenomena problem solver. A complete solution guide to any textbook. ISBN 0-87891-562-1. Research and Education Association, Piscataway NJ 1993

Way of continuous check of knowledge in the course of semester

E-learning

Other requirements

Basic the knowledge of physical chemistry.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

1. Continuum. Transfer coefficients. 2. Viscosity. Thermal conductivity, Diffusivity. 3. One-dimensional conduction. 4. Mechanical balances in moving fluids. 5. 3D cases. Tensor functions, 6. Momentum balance. Navier-Stokes Eqs. 7. Reynolds number. Asymptotic solutions. 8. Boundary layer flows. 9. Instabilities, turbulence. 10. Convective transfer, forced and free. 11. Diffusion, Transport analogy. 12. Turbulent flow transport. 13. Interface effects. Surface tension.

Conditions for subject completion

Full-time form (validity from: 2017/2018 Winter semester, validity until: 2020/2021 Summer semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Credit and Examination	Credit and Examination	100 (100)	51
Credit	Credit	40	21
Examination	Examination	60	30	3

Mandatory attendence participation: 100 %

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Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

Academic year	Programme	Branch/spec.	Form	Study language	Tut. centre	Year	Type of duty
2019/2020	(N3909) Process Engineering	(2805T019) Chemical and environmental engineering	P	Czech	Ostrava	1	Choice-compulsory	study plan
2018/2019	(N3909) Process Engineering	(2805T019) Chemical and environmental engineering	P	Czech	Ostrava	1	Choice-compulsory	study plan
2017/2018	(N3909) Process Engineering	(2805T019) Chemical and environmental engineering	P	Czech	Ostrava	1	Choice-compulsory	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction

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