Faculty of Technical Sciences

Subject: Engineering user programs (17.M35I52)

General information:
 
Category Professional-applicative
Scientific or art field Mehanika fluida, hidropneumatska, gasna i naftna tehnika
ECTS 4

The aim of the subject is students to apply acquired knowledge in the field of computational fluid dynamics and to be trained for solving of complex fluid flow problems by using of softwares of computational fluid dynamics (CFD).

Students will be trained to solve complex fluid flow problems by using of softwares of computational fluid dynamics (CFD).

In the frame of the subject students will solve specific fluid flow problems from engineering practice with all three kinds of software of computational fluid dynamics (in house, open source and commercial). It will be considered complex fluid flow problems which will individually include physical phenomena like heat transfer, mass transfer and chemical reaction. Considered problems will cover flow of liquid and gas, single phase and multiphase flows, flow of Newtonian and non-Newtonian fluid, stationary and non-stationary flows. By using above mentioned softwares for fluid flow computation students will apply acquired knowledge in the field of computational fluid dynamics applying the next steps of numerical simulation setup for each considered problem: geometry modeling, forming of regions, implementation of boundary conditions, selection and setup of physical models, selection and setup of mesh models, setup of criteria for stopping of numerical simulation, post processing and analyzing of obtained results.

Teaching is done with modern didactic means and methods, interactively in the form of lectures and computer exercises. In addition to lectures and exercises, consultations are also regularly held. The lectures present the theoretical part of the material accompanied by characteristic examples for easier understanding of the subject matter. Students use information and communication technologies during computer exercises in order to master knowledge and skills in the field of interest.

Authors Title Year Publisher Language
Patankar, V.S. Numerical Heat Transfer and Fluid Flow 1980 McGraw-Hill Book Company, Washington English
Leveque, R.J. Finite volume methods for hyperbolic problems 2002 Cambridge University Press, Cambridge English
Versteeg, H.K., Malalasekera, W. An Introduction to Computational Fluid Dynamics, Longman Scientific & Technical 1995 Longman Scientific & Technical English
Ferziger, J.H., Perić, M. Computational Method for Fluid Dynamics 2002 Springer English
Forsythe, G.E. Finite - difference methods for partial diferential equations 1960 John Wiley&Sons, New York English
Course activity Pre-examination Obligations Number of points
Oral part of the exam No Yes 20.00
Written part of the exam - tasks and theory No Yes 30.00
Computer excersise defence Yes Yes 40.00
Lecture attendance Yes Yes 5.00
Computer exercise attendance Yes Yes 5.00

Prof. Bukurov Maša

Full Professor

Lectures

Assistant - Master Kozomora Vladimir

Assistant - Master

Computational classes

Faculty of Technical Sciences

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(+381) 21 6350 413

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© 2024. Faculty of Technical Sciences.