Evgeni Fedorovich

Complete CV in PDF

EDUCATION

1986

Ph.D. (C.Sc.) in Geophysics, Main Geophysical Observatory, Leningrad, USSR.

Dissertation: "Numerical modeling of atmospheric boundary layer flow over topography elements".

1979

M.S. in Atmospheric Physics, Leningrad State University, USSR.

 

PROFESSIONAL EXPERIENCE

2021 - present

Professor Emeritus, School of Meteorology, University of Oklahoma, USA.

2004 - 2021

Professor (from 2012 to 2021 - Presidential Professor), School of Meteorology, University of Oklahoma, USA.

2014 - 2022

Editor, Boundary-Layer Meteorology, Springer.

2007-2008, 2010, 2013

Visiting Scientist/Professor, Max-Planck Institute for Meteorology and University of Hamburg, Germany.

2007

Scientific Visitor, National Center for Atmospheric Research, Boulder, USA.

1999 - 2004

Associate Professor, School of Meteorology, University of Oklahoma, USA.

1999 - 2007

Visiting Scientist/Professor, Institute for Hydromechanics, University of Karlsruhe, Germany.

1998

Visiting Professor, Ecole Centrale de Nantes, France.

1997-1999

Research Associate, Institute for Hydromechanics, University of Karlsruhe, Germany.

1996

Associate Professor, Department of Physics, University of Genoa, Italy.

1995-1997

Research Associate, Institute of Hydrology and Water Resources, University of Karlsruhe, Germany.

1993-1995

Alexander von Humboldt Research Fellow, Institute of Hydrology and Water Resources, University of Karlsruhe, Germany.

1992-1993

Visiting Scientist, Laboratory of Fluid Mechanics, Ecole Centrale de Nantes, France.

1990-1992

Director, Laboratory of the Atmospheric Boundary-Layer Studies, Main Geophysical Observatory, St. Petersburg, Russia.

Associate professor, Leningrad (St. Petersburg) Hydrometeorological Institute, Russia.

1988-1990

Assistant Professor, Computational Mathematics Department, Leningrad Civil Engineering Institute, USSR.

1980-1988

Junior Research Associate, Main Geophysical Observatory, Leningrad, USSR.

1979-1980

Trainee Researcher, Main Geophysical Observatory, Leningrad, USSR.

 

PROFESSIONAL DISTINCTIONS

Journal of the Atmospheric Sciences Editor's Award

For insightful, timely, and thorough reviews and re-reviews of several manuscripts during the past two years

2015, American Meteorological Society, USA.

Edith Kinney Gaylord Presidential Professorship

2012, University of Oklahoma, USA.

Humboldt Research Award (Humboldt Forschungspreis)

2009, Alexander von Humboldt Foundation, Germany.

Dean's Award for Excellence in Research and Scholarship

2008, College of Atmospheric and Geographic Sciences, University of Oklahoma, USA.

Journal of the Atmospheric Sciences Editor's Award

For thorough, sustained, critical, yet constructive reviews on a wide range of topics related to atmospheric boundary layers and turbulence

2008, American Meteorological Society, USA.

Alexander von Humboldt Fellowship

1993, Alexander von Humboldt Foundation, Germany.

Fellowship of the Regional Council of the Loire Lands (Bourse du Conseil Regional des Pays de la Loire)

1992, Nantes, France.

ACTIVITY AREAS

- Teaching atmospheric dynamics, atmospheric physics, and boundary-layer meteorology at undergraduate and graduate levels.

- Numerical, observational, and laboratory studies of atmospheric boundary-layer flows: basic research and meteorological applications.

- Theory, numerical modeling and simulation (direct and large-eddy) of atmospheric slope flows and low-level jets.

- Mesoscale atmospheric modeling.

- Parameterization of the interaction between the atmosphere and underlying surfaces of various properties.

LECTURES AND TALKS

German Weather Service (DWD), Offenbach, Germany (2019). Seminar talk:

"Low-level jets over gently sloping terrain of the U.S. Great Plains"

Department of Meteorology and Air Quality, Wageningen University, the Netherlands (2018). Seminar talk:

"Nocturnal low-level jets over the Great Plains of the United States"

German Weather Service (DWD), Offenbach, Germany (2015). Seminar talk:

"Structural features of numerically simulated slope flows: implications for atmospheric modeling"

Department of Mechanics, Royal Institute of Technology, Stockholm, Sweden (2015). Seminar talk:

"Direct and large-eddy simulations of slope flows"

Keynote presentation at the Sixth International Conference on Computational Wind Engineering (CWE 2014), Hamburg, Germany:

"Turbulent winds in numerically simulated atmospheric convective boundary-layer flows" (with J. Gibbs)

Solicited talk at the European Geosciences Union Assembly, Vienna, Austria (2014):

"Turbulence scale interactions in convective boundary-layer flows reproduced with compressible and incompressible large eddy simulation codes" (with J. Gibbs)

Invited talk at the American Geophysical Union Fall Meeting, San Francisco, USA (2013):

"Oscillatory boundary-layer flows along thermally perturbed sloping surfaces" (with A. Shapiro)

Center for Marine and Atmospheric Sciences (ZMAW), University of Hamburg and Max Planck Society, Germany (2013). Seminar talk:

"Oscillations and boundary-layer similarity in numerically simulated slope flows" (with A. Shapiro).

Max Planck Research Group "Turbulent Mixing Processes in the Earth System", Max Planck Institute for Meteorology, Hamburg, Germany (2013). Seminar talks:

"Issues with large eddy simulations of turbulent slope winds"

"Evening transition of the atmospheric boundary layer and decay of convective turbulence"

"Effects of wind shear on the entrainment in atmospheric convective boundary layers"

Invited lecture at the 8th Brazilian Micrometeorology Workshop, Santa Maria, Brazil (2013):

"Structure of atmospheric boundary layers associated with convection initiation"

Lecture at the Croatian-USA Workshop on Mesometeorology, Ekopark Kras Resort, Zagreb, Croatia (2012):

"Numerical simulation of turbulent slope flows"

Department of Civil and Environmental Engineering, Princeton University, New Jersey, USA (2012):

"Challenges in conceptual understanding and numerical simulation of stably stratified atmospheric boundary layers"

Falconer Lecture at the Atmospheric Sciences Research Center, University at Albany, New York, USA (2012):

"Understanding thermally driven fluid flows through laboratory and computer experiments"

Department of Atmospheric, Oceanic, and Space Sciences, University of Michigan, Ann Arbor, USA (2011):

"Challenges in numerical simulations of slope flows"

Invited lecture at the 7th Brazilian Micrometeorology Workshop, Santa Maria, Brazil (2011):

"Numerical simulation of sheared convective boundary layers"

Humboldt Lecture at the Geophysical Colloquium of Hamburg University, Germany (2010):

"Dynamics of slope flows in stratified atmosphere"

Invited talk at the Workshop of the MetStroem Program of the Deutsche Forschungsgemeinschaft (DFG), Hamburg, Germany (2010):

"Unresolved issues with comparability of numerical and wind-tunnel simulations of horizontally evolving atmospheric convective boundary layers"

Institute of Marine and Atmospheric Research (IMAU), Utrecht University, the Netherlands (2010):

"Boundary layer features of slope flows in stratified atmosphere"

 

TEACHING

University of Oklahoma (OU), USA

Courses taught:

Advanced Atmospheric Dynamics I (graduate), fall semester 2008.

Atmospheric Dynamics I (undergraduate), fall semesters 2012 to 2015, 2017-2018, 2020.

Atmospheric Dynamics II: Theory of Atmospheric Flows (undergraduate), spring semesters 2002, 2006, 2019-2021.

Atmospheric Turbulence (graduate), spring semesters 2004 and 2008.

Boundary Layer Meteorology (graduate), spring semesters 2000, 2001 to 2009 (biannually), 2011 to 2016, 2018.

Meteorological Measurements (undergraduate), fall semester 2003.

Micrometeorological Measurements and Modeling (undergraduate/graduate). Spring semester 2017.

Physical Meteorology I: Thermodynamics (undergraduate), fall semesters 2004-2006.

Physical Meteorology III: Radiation and Climate (undergraduate), fall semesters 2000-2002, 2007, 2010-2011.

Supervising/advising OU graduate and undergraduate students in

- atmospheric dynamics,

- mesoscale meteorology,

- boundary layer meteorology, and

- computational fluid dynamics.

International Summer School on Atmospheric Boundary Layers, Ecole de Physique, Les Houches, France, June 2008

Lectures on Physical modeling of the atmospheric boundary layer flows. Lecture 1, Lecture 2, Lecture 3

Tutorial on Flux-profile calculations in the atmospheric surface layer based on multi-level measurement data. Manual

Hamburg University, Germany, 2010

Numerical modeling and simulation of atmospheric boundary layer flows with complex forcings. Graduate level lecture course. Description

Atmospheric Dynamics II. Theory of Atmospheric Flows. Undergraduate independent study.

Turbulence modeling and simulation. Advising graduate students.

4th CNR-ISAC International Summer School "Severe Convective Weather: Theory and Applications". Castro Marina (Lecce), Italy, September 2012

Lectures:

I. Conceptual introduction to atmospheric planetary boundary layers; pdf

II. Basic approaches toward atmospheric boundary layer modeling and simulation; pdf

III. Atmospheric convective boundary layer with wind shears; pdf

IV. Atmospheric boundary layers in pre-storm environments. pdf

PUBLICATIONS

Representative

Axelsen, S., A. Shapiro, E. Fedorovich, and H. van Dop, 2010: Analytical solution for katabatic flow induced by an isolated cold strip. Environmental Fluid Mechanics, 10, 387-414. pdf

Bonin, T., P. Chilson, B. Zielke, and E. Fedorovich, 2013: Observations of early evening boundary layer transitions using a small unmanned aerial system. Bound. Layer Meteorol., 146, 119-132. pdf

Botnick, A. M., and E. Fedorovich, 2008: Large eddy simulation of atmospheric convective boundary layer with realistic environmental forcings. Quality and Reliability of Large-Eddy Simulations, J. Meyers et al., Eds., Springer, 193-204. pdf

Burkholder, B., E. Fedorovich, and A. Shapiro, 2010: Evaluating subgrid-scale models for large-eddy simulation of turbulent katabatic flow. Quality and Reliability of Large-Eddy Simulations II, M. V. Salvetti et al., Eds., Springer, 149-160. pdf

Burkholder, B., A. Shapiro, and E. Fedorovich, 2009: Katabatic flow induced by a cross-slope band of surface cooling. Acta Geophysica, 57, 923-949. pdf

Conzemius, R. J., and E. Fedorovich, 2006: Dynamics of sheared convective boundary layer entrainment. Part I: Methodological background and large-eddy simulations. J. Atmos. Sci., 63, 1151-1178. pdf

Conzemius, R. J., and E. Fedorovich, 2006: Dynamics of sheared convective boundary layer entrainment. Part II: Evaluation of bulk model predictions of entrainment flux. J. Atmos. Sci., 63, 1179-1199. pdf

Conzemius, R., and E. Fedorovich, 2007: Bulk models of the sheared convective boundary layer: evaluation through large eddy simulations. J. Atmos. Sci., 64, 786-807. pdf

Conzemius, R. J., and E. Fedorovich, 2008: A case study of convective boundary layer development during IHOP_2002: numerical simulations compared to observations. Month. Weather Rev., 136, 2305-2320. pdf

Fedorovich, E., 1995: Modeling the atmospheric convective boundary layer within a zero-order jump approach: an extended theoretical framework. J. Appl. Meteor., 34, 1916-1928. pdf

Fedorovich, E., 2004: Dispersion of passive tracer in the atmospheric convective boundary layer with wind shears: a review of laboratory and numerical model studies. Meteorol. Atmos. Phys., 87, 3-21. pdf

Fedorovich, E., 2011: Review of Turbulence in the Atmosphere by John C. Wyngaard. Bound. Layer Meteor., 139, 543-549. pdf

Fedorovich, E., and R. Conzemius, 2008: Effects of wind shear on the atmospheric convective boundary layer structure and evolution. Acta Geophysica, 56, 114-141. pdf

Fedorovich, E., R. Conzemius, and D. Mironov, 2004: Convective entrainment into a shear-free linearly stratified atmosphere: bulk models reevaluated through large eddy simulations. J. Atmos. Sci., 61, 281-295. pdf

Fedorovich, E., J. Gibbs, and A. Shapiro, 2017: Numerical study of idealized nocturnal low-level jets over gently sloping terrain. J. Atmos. Sci., 74, 2813-2834. pdf

Fedorovich, E., R. Kaiser, M. Rau, and E. Plate, 1996: Wind tunnel study of turbulent flow structure in the convective boundary layer capped by a temperature inversion. J. Atmos. Sci., 53, 1273-1289. pdf

Fedorovich, E. E., and D. V. Mironov, 1995: A model for shear-free convective boundary layer with parameterized capping inversion structure. J. Atmos. Sci., 52, 83-95. pdf

Fedorovich, E., F. T. M. Nieuwstadt, and R. Kaiser, 2001: Numerical and laboratory study of horizontally evolving convective boundary layer. Part I: Transition regimes and development of the mixed layer. J. Atmos. Sci., 58, 70-86. pdf

Fedorovich, E., F. T. M. Nieuwstadt, and R. Kaiser, 2001: Numerical and laboratory study of horizontally evolving convective boundary layer. Part II: Effects of elevated wind shear and surface roughness. J. Atmos. Sci., 58, 546-560. pdf

Fedorovich, E., and A. Shapiro, 2009: Turbulent natural convection along a vertical plate immersed in a stably stratified fluid. J. Fluid Mech., 636, 41-57. pdf

Fedorovich, E., and A. Shapiro, 2009: Structure of numerically simulated katabatic and anabatic flows along steep slopes. Acta Geophysica, 57, 981-1010. pdf

Fedorovich, E., and A. Shapiro, 2017: Oscillations in Prandtl slope flow started from rest. Q. J. R. Meteorol. Soc., 143, 670-677. pdf

Fedorovich, E., and J. Thaeter, 2001: Vertical transport of heat and momentum across a sheared density interface at the top of a horizontally evolving convective boundary layer. Journal of Turbulence, 2, 007. pdf

Fedorovich, E., and J. Thaeter, 2002: A wind tunnel study of gaseous tracer dispersion in the convective boundary layer capped by a temperature inversion. Atmospheric Environment, 36, 2245-2255. pdf

Gebauer, J. G., E. Fedorovich, and A. Shapiro, 2017: A 1D theoretical analysis of northerly low-level jets over the Great Plains. J. Atmos. Sci., 74, 3419-3431. pdf

Gebauer, J., A. Shapiro, E. Fedorovich, and P. Klein, 2018: Convection initiation caused by heterogeneous low-level jets over the Great Plains. Month. Weather Rev., 146, 2615-2637. pdf

Gibbs, J. A., and E. Fedorovich, 2014: Comparison of convective boundary layer velocity spectra retrieved from large eddy simulation and Weather Research and Forecasting model data. J. Appl. Meteorol. Clim., 53, 377-394. pdf

Gibbs, J. A., and E. Fedorovich, 2014: Effects of temporal discretization on turbulence statistics and spectra in numerically simulated convective boundary layers. Bound. Layer Meteorol., 153, 19-41. pdf

Gibbs, J. A., and E. Fedorovich, 2016: Sensitivity of turbulence statistics in the lower portion of a numerically simulated stable boundary layer to parameters of the Deardorff subgrid turbulence model. Q. J. R. Meteorol. Soc., 142, 2205-2213. pdf

Gibbs, J. A., and E. Fedorovich, 2020: On the evaluation of the proportionality coefficient between the turbulence temperature spectrum and structure parameter. J. Atmos. Sci., 77, 2761-2763. pdf

Gibbs, J. A., and E. Fedorovich, 2020: Structure functions and structure parameters of velocity fluctuations in numerically simulated atmospheric convective boundary layer flows. J. Atmos. Sci., 77, 3619-3629. pdf

Gibbs, J. A., E. Fedorovich, and A. M. J. van Eijk, 2011: Evaluating Weather Research and Forecasting (WRF) model predictions of turbulent flow parameters in a dry convective boundary layer. J. Appl. Meteor. Clim., 50, 2429-2444. pdf

Gibbs, J. A., E. Fedorovich, B. Maronga, C. Wainwright, and M. Droese, 2016: Comparison of direct and spectral methods for evaluation of the temperature structure parameter in numerically simulated convective boundary layer flows. Month. Weather Rev., 144, 2205-2214. pdf

Gibbs, J. A., E. Fedorovich, and A. Shapiro, 2015: Revisiting surface heat-flux and temperature boundary conditions in models of stably stratified boundary-layer flows. Bound. Layer Meteorol. 154, 171-187. pdf

Kaiser, R., and E. Fedorovich, 1998: Turbulence spectra and dissipation rates in a wind tunnel model of the atmospheric convective boundary layer. J. Atmos. Sci., 55, 580-594. pdf

Kljun N., P. Kastner-Klein, E. Fedorovich, and M. W. Rotach, 2004: Evaluation of Lagrangian footprint model using data from wind tunnel convective boundary layer. Agric. For. Meteorol., 127, 198-201. pdf

LeMone, M. A., W. Angevine, C. Bretherton, F. Chen, J. Dudhia, E. Fedorovich, K. Katsaros, D. Lenschow, L. Mahrt, E. Patton, J. Sun, M. Tjernstroem, and J. Weil, 2019: 100 years of progress in boundary layer meteorology. AMS Meteorological Monographs, 59, Chapter 9. pdf

Liu, C., E. Fedorovich, and J. Huang, 2018: Revisiting entrainment relationships for shear-free and sheared convective boundary layers through large-eddy simulations. Q. J. R. Meteorol. Soc., 144, 2182-2195. pdf

Liu, C., E. Fedorovich, J. Huang, X.-M. Hu, Y. Wang, and X. Lee, 2019: Impact of aerosol shortwave radiative heating on the entrainment in atmospheric convective boundary layer: a large-eddy simulation study. J. Atmos. Sci., 76, 785-799. pdf

Liu, C., J. Huang, E. Fedorovich, X.-M. Hu, Y. Wang, and X. Lee, 2018: Turbulence statistics and spectra in an aerosol radiatively heated convective boundary layer: a large-eddy simulation study. Atmosphere, 9, 347. pdf

Mironov, D., and E. Fedorovich, 2010: On the limiting effect of the Earth's rotation on the depth of a stably stratified boundary layer. Q. J. R. Meteorol. Soc., 136, 1473-1480. pdf

Nemunaitis-Berry, K., P. M. Klein, J. B. Basara, and E. Fedorovich, 2017: Sensitivity of predictions of the urban surface energy balance and heat island to variations of urban canopy parameters in simulations with the WRF model. J. Appl. Meteorol. Clim., 56, 573-595. pdf

Scipion, D., P. B. Chilson, E. Fedorovich, and R. D. Palmer, 2008: Evaluation of an LES-based wind profiler simulator for observations of a daytime atmospheric convective boundary layer. J. Atmos. Oceanic Technol., 25, 1423-1436. pdf

Scipion, D., R. D. Palmer, P. B. Chilson, E. Fedorovich, and A. M. Botnick, 2009: Retrieval of convective boundary layer wind field statistics from radar profiler measurements in conjunction with large eddy simulation. Meteorologische Zeitschrift, 18, 175-187. pdf

Shapiro, A., B. Burkholder, and E. Fedorovich, 2012: Analytical and numerical investigation of two-dimensional katabatic flow resulting from local surface cooling. Bound. Layer Meteorol., 145, 249-272. pdf

Shapiro, A., and E. Fedorovich, 2004: Unsteady convectively driven flow along a vertical plate immersed in a stably stratified fluid. J. Fluid Mech., 498, 333-352. pdf

Shapiro, A., and E. Fedorovich, 2004: Prandtl-number dependence of unsteady natural convection along a vertical plate in a stably stratified fluid. Int. J. Heat and Mass Transfer, 47, 4911-4927. pdf

Shapiro, A., and E. Fedorovich, 2006: Natural convection in a stably stratified fluid along vertical plates and cylinders with temporally-periodic surface temperature variations. J. Fluid Mech., 546, 295-311. pdf

Shapiro, A., and E. Fedorovich, 2007: Katabatic flow along a differentially cooled sloping surface. J. Fluid Mech., 571, 149-175. pdf

Shapiro, A., and E. Fedorovich, 2008: Coriolis effects in homogeneous and inhomogeneous katabatic flows. Q. J. R. Meteorol. Soc., 134, 353-370. pdf

Shapiro, A., and E. Fedorovich, 2009: Nocturnal low-level jet over a shallow slope. Acta Geophysica, 57, 950-980. pdf

Shapiro, A., and E. Fedorovich, 2010: Analytical description of a nocturnal low-level jet. Q. J. R. Meteorol. Soc., 136, 1255-1262. pdf

Shapiro, A., and E. Fedorovich, 2012: Secularly growing oscillations in a stratified rotating fluid. Phys. Fluids, 24, 054107 (2012). pdf

Shapiro, A., and E. Fedorovich, 2013: Similarity models for unsteady free convection flows along a differentially cooled horizontal surface. J. Fluid Mech., 736, 444-463. pdf

Shapiro, A., and E. Fedorovich, 2014: A boundary-layer scaling for turbulent katabatic flow. Bound. Layer Meteorol., 153, 1-18. pdf

Shapiro, A., and E. Fedorovich, 2019: An analytical model of an urban heat island circulation in calm conditions. Environmental Fluid Mechanics, 19, 111-135. pdf

Shapiro, A., E. Fedorovich, and J. Gebauer, 2018: Mesoscale ascent in nocturnal low-level jets. J. Atmos. Sci., 75, 1403-1427. pdf

Shapiro, A., E. Fedorovich, and J. Gibbs, 2015: An analytical verification test for numerically simulated convective flow above a thermally heterogeneous surface. Geosci. Model Dev., 8, 1809-1819. pdf

Shapiro, A., E. Fedorovich, and S. Rahimi, 2016: A unified theory for the Great Plains nocturnal low-level jet. J. Atmos. Sci., 73, 3037-3057. pdf

Smith, E., E. Fedorovich, and A. Shapiro, 2017: Comparative evaluation of analytical descriptions of nocturnal low-level jets within the Ekman model framework. Environmental Fluid Mechanics, 17, 485-495. pdf

Smith, E. N., J. G. Gebauer, P. M. Klein, E. Fedorovich, and J. A. Gibbs, 2019: The Great Plains low-level jet during PECAN: observed and simulated characteristics. Month. Weather Rev., 147, 1845-1869. pdf

Smith, E. N., J. A. Gibbs, E. Fedorovich, and P. M. Klein, 2018: WRF model study of the Great Plains low-level jet: effects of grid spacing and boundary layer parameterization. J. Appl. Meteorol. Clim., 57, 2375-2397. pdf

Van Heerwaarden, C. C., B. J. H. van Stratum, T. Heus, J. A. Gibbs, E. Fedorovich, and J.-P. Mellado, 2017: MicroHH 1.0: a computational fluid dynamics code for direct numerical simulation and large-eddy simulation of atmospheric boundary layer flows. Geosci. Model Dev., 10, 3145-3165. pdf

Wainwright, C. E., P. B. Chilson, J. A. Gibbs, T. A. Bonin, E. Fedorovich, and R. D. Palmer, 2015: Methods for evaluating structure function parameters using unmanned aerial systems and large-eddy simulation. Bound. Layer Meteorol., 155, 189-208. pdf

Wainwright, C. E., P. M. Stepanian, P. B. Chilson, R. D. Palmer, E. Fedorovich, and J. A. Gibbs, 2014: A time series sodar simulator based on large eddy simulation. J. Atmos. Ocean. Tech., 31, 876-889. pdf

Weiss, C. C., H. B. Bluestein, R. Conzemius, and E. Fedorovich, 2007: Variational pseudo-multiple-Doppler wind retrieval in the vertical plane for ground-based mobile radar data. J. Atmos. Oceanic Technol., 24, 1165-1185. pdf

Wilson, C., and E. Fedorovich, 2012: Direct evaluation of refractive-index structure functions from large-eddy simulation output for atmospheric convective boundary layers. Acta Geophysica, 60, 1474-1492. pdf

Wilson, C., A. M. J. van Eijk, and E. Fedorovich, 2013: Retrieval of structure functions of air temperature and refractive index from large eddy simulations of the atmospheric boundary layer. Laser propagation and communication through the atmosphere and oceans II, C. Davis and A.M.J. van Eijk, Eds., Proc. SPIE, 8874, doi: 10.1117/12.2023990. pdf