This model has been developed also for the accelerated and non-isothermal turbulent boundary layer flows over rough surface.
The fundamental constants of wall turbulence including the Karman constant have been calculated within a theory. The completely closed model of wall turbulence was derived directly from the Navier-Stokes equation. THEORY OF TURBULENCE AND SIMULATION OF TURBULENT TRANSPORT IN THE ATMOSPHERE PARTS 1, 2ĭirector, A&E Trounev IT Consulting, Toronto, Canada 2D roughness elementsģ.5 Model of total length of frontal and leeward re-circulation zonesģ.6Ěbout efficiency of air pollutants removalĤ Theory of turbulent flows in temperature and pressure gradientsĤ.2 Turbulent flow in the stratified surface layerĤ.3 Turbulent boundary layer in pressure gradientĥ Turbulent transports in the atmospheric surface layer 3D roughness elementsģ.4 Modelling of roughness density effect.
ПОГРАНИЧНЫЙ СЛОЙ, ШЕРОХОВАТАЯ ПОВЕРХНОСТЬ, ПРИЗЕМНЫЙ СЛОЙ АТМОСФЕРЫ, ТУРБУЛЕНТНЫЙ ПЕРЕНОС АЭРОЗОЛЕЙĢ.2 Transformation of hydrodynamic equationsĢ.4 Theory of turbulent incompressible flowsĢ.4.1 Turbulent boundary layer in zero pressure gradientĢ.4.3 Mean velocity profile in turbulent flow over smooth surfaceĢ.4.4 Streamwise turbulent intensity profilesĢ.4.5 Normal and transversal turbulent intensity profilesģ Model of turbulent flows over rough surfaceģ.1Ğmpirical models of turbulent flow over rough surfacesģ.2 Model of wall roughness effect on turbulent flowģ.3 Modelling of roughness density effect.
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