Czech

Not applicable.

Mathematics (mainly differential and integral calculus), physics (hydrodynamics and thermomechanics, gasdynamics), aerodynamics of low speed flows.

Participation at seminars and laboratory exercises is obligatory. Participation at lectures is voluntary. Course-unit credits will be awarded only if: - participation at practical exercises is greater than 11 of 14, - homework assignments are correctly elaborated and submitted, - report of laboratory measurement is submitted, - all problems presented at exercises are correctly finished.. Examination comprises written and possible oral parts. The written one consists of 5 test questions and 2 calculations. Each question per 10 points, each calculation per 20 points. At least 45 points is necessary to pass the exam. Oral part is optional in a case of necessity to clarify some answers from written part.
Student have to solve all problems presented at exercises. If presence at exercises is less then 50 % student has to compensate missed exercises individually.

The aim of course is to familiarize students with theoretical fundamentals of finite volume method for computational fluid dynamics. Also to present industrial standards of CFD tools implementation for external aerodynamics in aerospace industry.
Student will gain knowledge about numerical approach to solution of Navier-Stokes equations, practical implementation of CFD codes, about methodical approach to simulation model preparation and practical solution of concrete particular flows. Also industrial standards for computational fluid dynamics problems simulations is presented.

Not applicable.

Not applicable.

Anderson, J., D., Computational Fluid Dynamics, McGraw-Hill Education, ISBN-10: 0070016852
Tu, J., Yeoh, G., H., Liu, Ch., Computational Fluid Dynamics - A practical approach, Butterworth-Heineman, ISBN 978-0-7506-8563-4 (EN)

Not applicable.