Biblio
Filters: Author is Zilitinkevich, Sergej [Clear All Filters]
Turbulence energetics in stably stratified geophysical flows: Strong and weak mixing regimes. Quarterly Journal of the Royal Meteorological Society 134, 793-799 (2008).
Turbulent energetics in the stably stratified geophysical flows and the problem of critical Richardson number. International Conference Mesoscale Meteorology and Air Pollution in Commemoration of the Late Professor Lev Gutman and His Outstanding Contribution to Theoretical Mesometeorology, 15-17 September 2008, Odessa State Environmental University, Odessa, Ukra (2008).
Energy- and flux-budget (EFB) turbulence closure model for stably stratified flows. Part I: steady-state, homogeneous regimes. Atmospheric Boundary Layers: Nature, Theory and Applications to Environmental Modelling and Security 11-35 (2007).doi:10.1007/978-0-387-74321-9_3 Abstract
Download: fulltext-8.pdf (727.04 KB)
Energy- and flux-budget (EFB) turbulence closure model for stably stratified flows. Part I: steady-state, homogeneous regimes. Boundary-layer Meteorology 125, 167-191 (2007). Abstract
Download: fulltext-9.pdf (680.31 KB)
Similarity theory and calculation of turbulent fluxes at the surface for the stably stratified atmospheric boundary layer. Atmospheric Boundary Layers: Nature, Theory and Applications to Environmental Modelling and Security 37-49 (2007).at <http://www.springerlink.com.pva.uib.no/content/978-0-387-74318-9/#section=167162&page=3&locus=29> Abstract
Download: fulltext-10.pdf (911.87 KB)
Similarity theory and calculation of turbulent fluxes at the surface for the stably stratified atmospheric boundary layer. Boundary-Layer Meteorology 125, 193-205 (2007). Abstract
Download: fulltext-11.pdf (871.77 KB)
Further comments on the equilibrium height of neutral and stable planetary boundary layers. Quarterly J. Royal Meteorol. Soc. 133, 265-271 (2007).
A new model for the CBL growth based on the turbulent kinetic energy equation. Environ. Fluid Mech. 409-419 (2007).
Similarity theory and calculation of turbulent fluxes at the surface for the stably stratified atmospheric boundary layers. 7th Annual EMS Meeting, 1-5 October, San Lorenzo de El Escorial, Spain, EMS7/ECAM8 Abstracts, 4 (2007).
A total turbulent energy closure model for neutrally and stably stratified atmospheric boundary layers. Journal of the Atmospheric Science 64, 4117-4130 (2007).
Universal dependences between turbulent and mean flow parameters in stably and neutrally stratified Planetary Boundary Layers. Nonlinear processes in geophysics 135-144 (2006).at <http://www.nonlin-processes-geophys.net/special_issue56.html> Abstract
Download: Esau_Zilitinkevich_NP_2005.pdf (407.77 KB)
The effect of stratification on the surface resistance for very rough vegetated and urban surfaces. Sixth International Conference on Urban Climate 415-418 (2006).
Forthcoming meetings on planetary boundary layer theory, modelling and applications. Boundary-Layer Meteorology (2006).
The Influence of large convective eddies on the surface-layer turbulence. Q.J.R. Meteorol. Soce. 1423-1456 (2006).
Modeling stable boundary layers (key lecture). SABLE Workshop. Abstracts and Presentations, November 12 - 16, 2006 (2006).
Urbanisation of meteorological and air pollution models: potential and shortcomings. Sixth International Conference on Urban Climate, June 12 - 16 2006 415-418 (2006).
Resistance and heat-transfer laws for stable and neutral planetary boundary layers: Old theory, advanced and re-evaluated. Quarterly Journal of the Royal Meteorological Society 131, 1863-1892 (2005). Abstract
Atmospheric boundary layers in storms: advanced theory and modelling applications. Advances in Geosciences 47-49 (2005).
The effect of large eddies on the convective heat/mass transfer over complex terrain: Advanced theory and its validation against experimental and LES data. Croatian Meteorological Journal 20-26 (2005).
Parameter Phase Space of Idealized Shear-Driven Planetary Boundary Layer. EGU General Assembly (2005).
On parameterizations of urban atmosphere sublayer in meteorological models. Atmospheric Chemistry and Physics Discussion (2005).
