DEEN
Magazin Humboldt Kosmos Newsroom Newsletter

Suche

Preise und Stipendien Recherche im Humboldt-Netzwerk

Suche nach Tags

Prof. Dr. Evgeni Fedorovich

Profil

Derzeitige StellungEmeritus
FachgebietMeteorologie,Atmosphärenphysik
Keywordssimulation, modeling, parametrization, boundary layer, turbulence

Aktuelle Kontaktadresse

LandUSA
OrtNorman
Universität/InstitutionUniversity of Oklahoma
Institut/AbteilungSchool of Meteorology

Gastgeber*innen während der Förderung

Prof. Dr.-Ing. Erich PlateInstitut für Hydrologie und Wasserwirtschaft, Universität Karlsruhe (TH), Karlsruhe
Prof. Dr. Michael SchatzmannMeteorologisches Institut (MI), Universität Hamburg, Hamburg
Dr. Bjorn StevensMax-Planck-Institut für Meteorologie, Hamburg
Beginn der ersten Förderung01.12.1993

Programm(e)

1992Humboldt-Forschungsstipendien-Programm
2009Humboldt-Forschungspreis-Programm für Naturwissenschaftler*innen aus den USA

Projektbeschreibung der*des Nominierenden

Professor Fedorovich is one of the leading atmospheric physicists. He has contributed pioneering publications on both theoretical and experimental aspects of convective boundary layers and has developed an innovative approach to the description of inversion layers. In the field of urban meteorology he has done work on the dispersion of pollutants within the canopy layer. He has identified circulation patterns and simulated them using numerical models. During his stay at the KlimaCampus Hamburg he plans to work with his German colleagues on the development of Large-Eddy-Simulation (LES) methods and the validation of such models. Professor Fedorovich is hosted by Professor Michael Schatzmann at the Meteorological Institute and by Professor Björn Stevens at the Max-Planck Institute for Meteorology in Hamburg.

Publikationen (Auswahl)

2004Evgeni Fedorovich: Dispersion of passive tracer in the atmospheric convective boundary layer with wind shears: a review of laboratory and numerical model studies. In: Meteorology and Atmospheric Physics, 2004, 3-21
2001Evgeni Fedorovich and Johannes Thäter: A wind tunnel study of gaseous tracer dispersion in the convective boundary layer capped by a temperature inversion. In: Atmospheric Environment, 2001, 2245-2255
2001Evgeni Fedorovich, Rolf Kaiser, Frans Nieuwstadt: Numerical and laboratory study of horizontally evolving convective boundary layer. Part I: Transition regimes and development of the mixed layer. In: Journal of the Atmospheric Sciences, 2001, 70-86
2001Evgeni Fedorovich, Rolf Kaiser, Frans Nieuwstadt: Numerical and laboratory study of horizontally evolving convective boundary layer. Part II: Effects of elevated wind shear and surface roughness. In: Journal of the Atmospheric Sciences, 2001, 546-560
2001Evgeni Fedorovich, Johannes Thäter: Vertical transport of heat and momentum across a sheared density interface at the top of a horizontally evolving convective boundary layer. In: Journal of Turbulence, 2001,
1998Evgeni Fedorovich: Bulk models of the atmospheric convective boundary layer. In: Erich Plate, Evgeni Fedorovich, Domingos Viegas, John Wyngaard, Buoyant Convection in Geophysical Flows. Kluwer, 1998. 265-290
1998Rolf Kaiser, Evgeni Fedorovich: Turbulence spectra and dissipation rates in a wind tunnel model of the atmospheric convective boundary layer. In: Journal of the Atmospheric Sciences, 1998, 580-594
1998Evgeni Fedorovich, Rolf Kaiser: Wind tunnel model study of turbulence regime in the atmospheric convective boundary layer. In: Erich Plate, Evgeni Fedorovich, Domingos Viegas, John Wyngaard, Buoyant Convection in Geophysical Flows. Kluwer, 1998. 327-370
1996Evgeni Fedorovich, Rolf Kaiser, Matthias Rau, Erich Plate: Wind tunnel study of turbulent flow structure in the convective boundary layer capped by a temperature inversion. In: Journal of the Atmospheric Sciences, 1996, 1273-1289
1995Evgeni Fedorovich and Dmitrii Mironov: A model for shear-free convective boundary layer with parameterized capping inversion structure. In: Journal of the Atmospheric Sciences, 1995, 83-95
1995Evgeni Fedorovich: Modeling the atmospheric convective boundary layer within a zero-order jump approach: an extended theoretical framework. In: Joiurnal of Applied Meteorology, 1995, 1916-1928