Aerodynamics of Ventilation (E161083)
| Departments: | ústav techniky prostředí (12116) |
| Abbreviation: | AV | Approved: | 21.12.2011 |
| Valid until: | ?? | Range: | 2P+1C |
| Semestr: | * | Credits: | 4 |
| Completion: | Z,ZK | Language: | EN |
Annotation
Application of fluid mechanics principles in heating, ventilation and air-conditioning. Solution tools for problems concerning air flow indoors or in ducts.
Teacher's
Ing. Martin Barták Ph.D.
Letní 2023/2024
Ing. Martin Barták Ph.D.
Letní 2022/2023
Structure
Incompressible fluid flow, kinematics and deformation of fluid element, potential flow, Euler equations, Bernoulli equation, Navier-Stokes equations, turbulence, Reynolds averaged Navier-Stokes equations, indoor air flow, experimental methods.
Structure of tutorial
Static pressure in a building, air flow in ducts, mean velocities, potential flow, air exhaust ventilation of industrial tanks, boundary layer flow, free jet, wall jet.
Literarture
Etheridge, D., Sandberg M. Building Ventilation: Theory and Measurement. Chichester : J. Wiley & Sons, 1996.
724 s. ISBN 0-471-96087-X.
· Cohen I. M., Kundu P. K., Ayyaswamy P. S. Fluid Mechanics, 4th ed. Oxford : Academic Press, 2008. 901 pp.
ISBN 978-0-08-055583-6 [e-book].
Requirements
Basics of fluid mechanics.
Keywords
incompressible fluid flow, air flow, ventilation
čs
en