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Last update: JANOUR/MFF.CUNI.CZ (07.05.2008)
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Last update: JANOUR/MFF.CUNI.CZ (07.05.2008)
Aquaint students with main characteristics and methods of description of the turbulent flow in the atmosphere. |
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Last update: doc. Mgr. Jiří Mikšovský, Ph.D. (19.10.2017)
Ústní zkouška v rozsahu témat daných sylabem. |
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Last update: JANOUR/MFF.CUNI.CZ (07.05.2008)
(1) H.Tennekes, J.L.Lumley: A First Course in Turbulence, The MIT Press, Cambridge, Mass, (1972) (2) H.A.Panofsky, J.A.Dutton: Atmospheric Turbulence, John Wiley and sons, (1984) (3) R.S.Azad: The Atmospheric Boundary Layer for Engineers, Kluwer Academic Publishers (1993) |
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Last update: JANOUR/MFF.CUNI.CZ (07.05.2008)
Course of lectures. |
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Last update: doc. Mgr. Jiří Mikšovský, Ph.D. (19.10.2017)
Ústní zkouška v rozsahu témat daných sylabem. |
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Last update: T_KMOP (10.05.2004)
Introduction- definition of turbulence, history, characteristics.
Flow kinematics - dynamical system (Lorenz model), Cellular Automata Model, kinetic theory, continuum.
Statistical description of turbulence, Reynolds conditions, equations of motion, continuity equation - shallow water approximation, closure problem, higher order correlation tensor, theory of turbulence.
Homogeneous and isotropic turbulence - characteristics, correlation tensor, equations of motion.
Turbulent diffusion - Lagrangian analysis
Turbulence models - algebraic (Prandtl´s momentum transfer theory, Taylor's vorticity transport theory, Von Kármán´s similarity hypothesis) one-point turbulence models (k-? model) |