LIST OF PUBLICATIONS
1.
Anderson, W., E. Fedorovich, J. J. Finnigan, and P.
Taylor, 2022: Celebrating the career of Dr. John R. Garratt: long-term
proponent of boundary-layer meteorology and
international man of mystery. Bound.
Layer Meteorol., 184, 371-373. BLM
2013 Bonin et al.pdf
2.
Arms, S., P.
Klein, and E. Fedorovich, 2008: Analysis and classification of flows over gently sloping terrain within
patchy vegetation. Abstr. 18th AMS
Symposium on Boundary Layers and Turbulence, June 9-13, 2008, Stockholm,
Sweden, 9A.1.
3.
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. EFM
2010 Axelsen et al.pdf
4.
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. BLM
2013 Bonin et al.pdf
5.
Borisov I. A.,
O. I. Soboleva, E. D. Suglobova,
and E. E. Fedorovich, 1994: Na+ and K+ ion transport across the human
erythrocyte membrane during the formation of nystatin channels under in-vitro
conditions: the characteristics and analysis of the processes. Tsitologia, 36, 427-436, in Russ.
6.
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. QLES
2008 Botnick and Fedorovich.pdf
7.
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. QLES
II 2010 Burkholder et al.pdf
8.
Burkholder,
B., A. Shapiro, and E. Fedorovich, 2008: Two-dimensional katabatic flows along a planar slope.
Abstr. 18th AMS Symposium on Boundary Layers and Turbulence, June
9-13, 2008, Stockholm, Sweden, 14A.5.
9.
Burkholder,
B., A. Shapiro, and E. Fedorovich, 2009: Katabatic flow induced by a
cross-slope band of surface cooling. Acta Geophysica, 57, 923-949. AG
2009 Burkholder et al.pdf
10.
Burkholder, B., A. Shapiro, and E. Fedorovich, 2010: Characteristics of turbulent slope flows in stably-stratified
environments: numerical results from large-eddy simulation. Abstr.
19th AMS Symposium on Boundary
Layers and Turbulence, August 2-6, 2010, Keystone, Colorado, USA.
11.
Chilson, P. B., C. E. Wainwright, T. A.
Bonin, J. A. Gibbs, D. Goines, A. Scott, E. Fedorovich, and R. D. Palmer, 2014: Estimation of temperature structure functions in the
atmospheric boundary layer using real and simulated data. Abstr. 17th International Symposium for the Advancement of Boundary Layer Remote
Sensing (ISARS 2014), January 28-31,
2014, Auckland, New Zealand.
12.
Chilson, P., C. Wainwright, C. Wilson, T. Bonin, P.
Stepanian, D. Russell, A. Frei-Pearson, R. Palmer, E. Fedorovich, and D. Scipion, 2012: An investigation of clear-air scatter at radio and
acoustic frequencies. Abstr. 13th Workshop
on Technical and Scientific Aspects of MST Radar, 19-23
March 2012, Kühlungsborn, Germany.
13.
Conzemius, R., and E. Fedorovich, 2001: Entrainment
dynamics of shear-free convective boundary layers growing in linearly and
discretely stratified fluids. Proc. Third Intern. Symp.
on Environmental Hydraulics, 5-8 December 2001,
Tempe, Arizona, USA, 6pp. (ISEH2001 Abstracts, 129). ISEH
2001 Conzemius & Fedorovich.pdf
14.
Conzemius, R., and E. Fedorovich, 2002: Dynamics of
convective entrainment in a heterogeneously stratified atmosphere with wind
shear. Proc. 15th AMS Symp. on Boundary Layers and Turbulence,
15-19 July 2002, Wageningen, The Netherlands, 31-34. 15th
AMS BLT 2002 Conzemius & Fedorovich.pdf
15.
Conzemius, R., and E. Fedorovich, 2003a: Evolution of mean
wind and turbulence fields in a quasi-baroclinic convective boundary layer with
strong wind shears. Proc.
11th Intern. Conf. on Wind Eng.,
2-5 June 2003, Lubbock, Texas, USA, 2055-2062. 11th
ICWE 2003 Conzemius & Fedorovich.pdf
16.
Conzemius R. J., and E. Fedorovich, 2003b: Wind shear
enhancement of convective boundary layer growth. Abstr. 2003 IUGG General Assembly, June 30 - July 11, 2003, Sapporo,
Japan, A389.
17.
Conzemius R., and E. Fedorovich, 2004a:
Predictions of entrainment into a sheared atmospheric convective boundary layer
by large eddy simulation versus two-parameter turbulence closure model. Geophysical
Research Abstracts, 6, 05343, 2004.
18.
Conzemius, R., and E. Fedorovich, 2004b: Numerical models of
entrainment into sheared convective boundary layers evaluated through large
eddy simulations. Preprints, 16th Symp. on Boundary
Layers and Turbulence, Amer. Meteorol.
Soc., 9-13
August, Portland, Maine, USA, CD-ROM, 5.6. 16th
AMS BLT 2004 Conzemius & Fedorovichl.pdf
19.
Conzemius R., and E. Fedorovich, 2005:
Essential features of entrainment in the sheared atmospheric convective
boundary layer as represented by first- and second-order bulk models. Geophysical
Research Abstracts, 7, 10265, 2005.
20.
Conzemius, R. J., and E. Fedorovich,
2006a: Dynamics of sheared convective boundary layer entrainment. Part I:
Methodological background and large-eddy simulations. J. Atmos. Sci., 63, 1151-1178. JAS
2006 Conzemius & Fedorovich Part I.pdf
21.
Conzemius, R. J., and E. Fedorovich,
2006b: Dynamics of sheared convective boundary layer entrainment. Part II: Evaluation of bulk
model predictions of entrainment flux. J.
Atmos. Sci.,
63, 1179-1199. JAS
2006 Conzemius & Fedorovich Part II.pdf
22.
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. JAS
2007 Conzemius & Fedorovich.pdf
23.
Conzemius, R.,
and E. Fedorovich, 2008a: Simulations versus observations of a sheared convective
boundary layer. Abstr. Inaugural
International Conference of the Engineering Mechanics Institute (EM08), May 18-21, 2008, University of Minnesota,
Minneapolis, USA, p. 216.
24.
Conzemius, R. J., and E. Fedorovich, 2008b: A case study of convective boundary layer
development during IHOP: numerical simulations compared to observations. Month. Weather Rev., 136, 2305-2320. MWR
2008 Conzemius & Fedorovich.pdf
25.
Conzemius, R.,
and E. Fedorovich, 2008c: Simulations versus observations of a sheared convective
boundary layer. Abstr. 18th AMS
Symposium on Boundary Layers and Turbulence, June 9-13, 2008, Stockholm,
Sweden, P6.4.
26.
Conzemius, R., and E. Fedorovich, 2010: Large
eddy simulation of realistic wind fields in daytime atmospheric boundary layer. Proc.
Fifth Intern. Symp. on
Computational Wind Engineering, 22-27 May 2010, Chapel Hill, North
Carolina, USA. 5th
CWE 2010 Conzemius & Fedorovich.pdf
27.
Di Sabatino, S., P. Kastner-Klein,
R. Berkowicz, R. Britter,
and E. Fedorovich, 2003: The modelling of turbulence from traffic in urban
dispersion models – Part I: Theoretical considerations. Environmental Fluid Mechanics, 3,
129-143. EFM
2003 Part I Di Sabatino et al.pdf
28.
Dubov, A. S.,
and E. E. Fedorovich, 1986: Numerical method for calculation of the atmospheric
boundary layer over two-dimensional obstructions of moderate slope. Abstr. Fourth Int. Conf. on Boundary and Interior
Layers, Novosibirsk, USSR, p. 45.
29.
Dyubkin, I. A.,
and E. E. Fedorovich, 1982: Estimation of the influence of random measurement
errors on the statistical characteristics of meteorological time series. Trudy GGO, 447, 115-123, in Russ.
30.
Dyubkin, I. A.,
R. G. Timanovskaya, and E. E. Fedorovich, 1983:
In-station control of the heat balance components measured aboard the research
ships with the aid of automated and semi-automated measuring technique. Trudy GOIN, 163, in Russ.
31.
Fedorovich, E. E., 1984: Some properties of the double
parameter solutions of the boundary layer model equations for the equilibrium
conditions. Trudy GGO, 483, in Russ.
32.
Fedorovich, E. E., 1985a: A numerical model of flow
over by air stream of extended relief forms. Meteorologiya i Gidrologiya, No. 7, 34-40, in Russ. Engl. translation in Meteorology and
Hydrology, Wash., D.C. Available from NTIS, Springfield, VA 22161, MGA
(1986), 37:6-170.
33.
Fedorovich, E. E., 1985b: A numerical model of the
stratified atmospheric boundary layer over extended relief forms. Abstr. All-Union Meeting on Mountain Meteorology,
Kiev, in Russ.
34.
Fedorovich, E. E., 1986a: Variational
approach towards calculation of the turbulent exchange coefficient in the
atmospheric boundary layer on the basis of wind measurement data. Trudy GGO, 502, in Russ.
35.
Fedorovich, E. E., 1986b: On the solution of the
atmospheric boundary layer equations for stream function and vorticity. Trudy GGO, 504, in Russ.
36.
Fedorovich, E. E., 1990: Comparative analysis of the
algorithms for the surface fluxes evaluation on the basis of standard
meteorological data. Proc. 5th Int. Youth
School on Meteorology and Hydrology, Varna, Bulgaria, 4, 3-19.
37.
Fedorovich, E. E., 1991a: Numerical modelling of the
slope effects in the atmospheric boundary layer. Meteorologiya i Gidrologiya, No. 8, 56-65, in Russ. Engl. translation in Meteorology and
Hydrology, Wash., D.C. Available from NTIS, Springfield, VA 22161, MGA
(1992), 43:8-383.
38.
Fedorovich, E. E., 1991b: Numerical modelling of the
atmospheric boundary-layer flow over ridge- and valley-type artificial
obstacles. Abstr. EUROMECH 276 Colloquium on the Dynamics of
the Urban Atmosphere, Nantes, France, p. 10.
39.
Fedorovich, E. E., 1992: A parameterized model of the
entrainment at the top of the atmospheric convectively mixed layer. Abstr. XVII General Assembly of the European
Geophysical Society, Annales Geophysicae,
Supplement to Volume 10, Part II, C272.
40.
Fedorovich, E., 1995a: Modeling the atmospheric
convective boundary layer within a zero-order jump approach: an extended
theoretical framework. J. Appl. Meteorol., 34,
1916-1928. JAM
1995 Fedorovich.pdf
41.
Fedorovich, E. E., 1995b: Inversion layers. Diffusion and Transport of Pollutants in the
Atmospheric Mesoscale Flow Fields, A. Gyr and
F.-S. Rys, Eds., Kluwer, 191-211. Diffusion
and Transport 1995 Fedorovich.pdf
42.
Fedorovich, E., 1998: Bulk models of the atmospheric
convective boundary layer. Buoyant
Convection in Geophysical Flows, E. J. Plate et al., Eds., Kluwer, 265-290.
Buoyant
Convection 1998 Fedorovich.pdf
43.
Fedorovich, E. E., 1999: Review of “Buoyant Convection in Geophysical Flows”,
NATO Scientific Publications Newsletter, 69, p. 2.
44.
Fedorovich, E., 2004a: 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. MAP2004
Fedorovich.pdf
45.
Fedorovich, E., 2004b: Dispersion in atmospheric convective
boundary layer with wind shears: from laboratory models to complex simulation
studies. Preprints, 5th Symp. on the Urban
Environment, Amer. Meteorol.
Soc., 23-26
August 2004, Vancouver, Canada, CD-ROM, 7.2. 5th
AMS UE Fedorovich.pdf
46.
Fedorovich, E., 2008: Flux-profile calculations in the atmospheric
surface layer based on multi-level measurement data. Tutorial Manual of International Summer School on Atmospheric Boundary
Layers, Les Houches, France. Wageningen
University/Utrecht University, 7-18. LH
SS 2008 Tutorial manual.pdf
47.
Fedorovich, E., 2011: Review of Turbulence in the Atmosphere by John C.
Wyngaard. Bound. Layer Meteorol., 139,
543-549. BLM_2011_Review_JW_TinA_Fedorovich.pdf
48.
Fedorovich, E., 2012: Numerical simulation of turbulent slope flows. Proc. Croatian-USA
Workshop on Mesometeorology, 18-20 June 2012, Zagreb,
Croatia.
49.
Fedorovich, E. E., and E. N. Churina,
1988: Application of the spline-approximation methods on the chaotic grid to
the problems of smoothing and interpolation of near-surface meteorological
fields. Abstr. All-Union Conf., Grodno, in Russ.
50.
Fedorovich, E. E., and E. N. Churina,
1989: Development of a fast algorithm for the problem of local wind field
adaptation accounting for conservation laws. Abstr. Summer School, Krasnoyarsk, in Russ.
51.
Fedorovich, E., and R. Conzemius, 2001: Large-eddy
simulation of convective entrainment in linearly and discretely stratified
fluids. Direct and Large-Eddy Simulation IV, B. J. Geurts
et al., Eds., Kluwer, 435-442. DNS
and LES 2001 Fedorovich & Conzemius.pdf
52.
Fedorovich, E., and R. Conzemius, 2002a: Evolution of
turbulent convective entrainment in heterogeneously versus linearly stratified fluids.
Advances in Turbulence IX, I. Castro et al., Eds., CIMNE Publication,
Barcelona, Spain, 457-460. Advances
in Turbulence 9 2002 Fedorovich & Conzemius.pdf
53.
Fedorovich, E., and R. Conzemius, 2002b: Effects of
initial temperature and velocity perturbations on the development of convection
in the atmospheric boundary layer. Proc.
15th AMS Symp. on Boundary
Layers and Turbulence, 15-19 July 2002, Wageningen, the Netherlands,
39-42. 15th
AMS BLT 2002 Fedorovich & Conzemius.pdf
54.
Fedorovich, E., and R. Conzemius, 2004:
Numerical evaluation of wind-shear effects on turbulence regime and entrainment
dynamics in the atmospheric convective boundary layer. Geophysical
Research Abstracts, 6, 05370, 2004.
55.
Fedorovich E., and R. Conzemius, 2005:
Velocity scales associated with different entrainment-contributing mechanisms
in the sheared atmospheric convective boundary layer. Geophysical
Research Abstracts, 7, 09821, 2005.
56.
Fedorovich,
E., and R. Conzemius, 2008a: Effects
of wind shear on the atmospheric convective boundary layer structure and
evolution. Acta Geophysica, 56, 114-141. AG
2008 Fedorovich & Conzemius.pdf
57.
Fedorovich,
E., and R. Conzemius, 2008b: Numerical simulation and
parameterization of entrainment into sheared convective boundary layers. Abstr. Inaugural International Conference of the
Engineering Mechanics Institute (EM08), May 18-21, 2008, University of Minnesota,
Minneapolis, USA, p. 242.
58.
Fedorovich, E., R. Conzemius, I. Esau, F. Katopodes Chow, D.
Lewellen, C.-H. Moeng, D. Pino, P. Sullivan, and J. Vilà-Guerau
de Arellano, 2004a: Entrainment into sheared convective boundary layers as
predicted by different large eddy simulation codes. Preprints, 16th Symp. on Boundary Layers and Turbulence,
Portland, ME, USA, Amer. Meteorol. Soc., P4.7. Available online at http://ams.confex.com/ams/pdfpapers/78656.pdf.
16th
AMS BLT 2004b Fedorovich et al.pdf
59.
Fedorovich, E., R. Conzemius, and D. Mironov, 2004b: Convective entrainment into a
shear-free linearly stratified atmosphere: bulk models re-evaluated through
large eddy simulations. J. Atmos. Sci., 61, 281-295. JAS
2004 Fedorovich et al.pdf
60.
Fedorovich, E., R. Conzemius, and A. Shapiro, 2004c: Nonstationarity of convective boundary layer growth in a
heterogeneously stratified, shear-free atmosphere. Preprints, 16th Symp. on Boundary Layers and Turbulence,
Amer. Meteorol. Soc., 9-13 August,
Portland, Maine, USA, CD-ROM, 7.9. 16th
AMS BLT 2004a Fedorovich et al.pdf
61.
Fedorovich, E., G. H. Jirka,
E. J. Plate, and R. Kolotilo, 1998: Investigation and
parameterization of scale interactions in the convective boundary-layer flow
turbulence using unified atmospheric, wind-tunnel, and numerical model database. Zwischenbericht.
Institut für Hydromechanik (IfH), Universität Karlsruhe,
Bericht Nr. 753, 76 pp., (available
from IfH, Universität Karlsruhe, Kaiserstraße 12, 76128 Karlsruhe, Germany).
62.
Fedorovich, E., G. H. Jirka,
J. Thäter, and E. J. Plate, 2002: Investigation and
parameterization of scale interactions in the convective boundary-layer flow
turbulence using unified atmospheric, wind-tunnel, and numerical model database. Endbericht. Institut
für Hydromechanik (IfH), Universität Karlsruhe, Bericht Nr. 792, 54 pp., (available from IfH,
Universität Karlsruhe, Kaiserstraße 12, 76128 Karlsruhe, Germany).
63.
Fedorovich,
E., and J. Gibbs, 2014a: Turbulence scale interactions in convective
boundary-layer flows reproduced with compressible and incompressible large eddy
simulation codes. Geophysical Research
Abstracts, 16, EGU2014-7573,
2014.
64.
Fedorovich,
E., and J. Gibbs, 2014b: Turbulent winds
in numerically simulated atmospheric convective boundary-layer flows. Abstr. Sixth International
Conference on Computational Wind Engineering, 8-12 June 2014, Hamburg,
Germany, 42-43.
65.
Fedorovich,
E., J. Gibbs, and A. Shapiro, 2016: Idealized numerical simulations of
nocturnal low-level jets developing over gently sloping terrain. Abstr. 22nd AMS Symposium on Boundary Layers and Turbulence, June
20-24, 2016, Salt Lake City, USA, 4A.5.
66.
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. JAS
2017 Fedorovich et al.pdf
67.
Fedorovich, E., and R. Kaiser, 1997a: Statistical
structure of turbulence in a wind tunnel model of the atmospheric convective
boundary layer. Abstr. Colloquium on Clear and Cloudy Boundary
Layers, 26-29 August 1997, Royal Netherlands Academy of Arts and Sciences,
Amsterdam, The Netherlands.
68.
Fedorovich, E., and R. Kaiser, 1997b: A model study of
mixing and entrainment in the horizontally evolving atmospheric convective
boundary layer. Proc. EURASAP Workshop on
Determination of the Mixing Height, 1-3 October 1997, Risø
National Laboratory, Roskilde, Denmark, 17-20.
69.
Fedorovich, E., and R. Kaiser, 1998a: Wind tunnel
model study of turbulence regime in the atmospheric convective boundary layer. Buoyant Convection in Geophysical Flows,
E. J. Plate et al., Eds., Kluwer, 327-370. Buoyant
Convection 1998 Fedorovich & Kaiser.pdf
70.
Fedorovich, E., and R. Kaiser, 1998b: Turbulent mixing
and entrainment in a horizontally evolving convective boundary layer capped by
a temperature inversion. Abstr. Symp. on Developments in Geophysical Turbulence. 16-19 June
1998, National Center for Atmospheric Research, Boulder, Colorado, USA.
71.
Fedorovich, E., and R. Kaiser, 1998c: Investigation of
turbulence structure in the convective boundary layer by means of LDA
measurements and large-eddy numerical simulation. Abstr. Workshop on Flow Diagnosis
Techniques. 30 June – 3 July 1998, State Marine Technology University, St.
Petersburg, Russia, p. 12.
72.
Fedorovich, E., R. Kaiser, and M. Rau, 1995a:
Convective boundary layer turbulence spectra and dissipation rates derived from
wind-tunnel simulations. Abstr. Workshop on Interaction of Scales in
Turbulence, 13-15 March 1995, Utrecht, The Netherlands.
73.
Fedorovich, E., R. Kaiser, and M. Rau, 1995b:
Simulation of convective boundary layer turbulence structure in the thermally
stratified wind tunnel. Proc. 11th AMS
Symposium on Boundary Layer and Turbulence, 27-31 March 1995, Charlotte,
North Carolina, USA, 544-547.
74.
Fedorovich, E., R. Kaiser, and M. Rau, 1995c:
Wind-tunnel study of turbulence regime in the convective boundary layer with
shear. Proc. 10th Symposium on Turbulent
Shear Flows, 14-16 August 1995, University Park, Pennsylvania, USA, 3, P3, 49-54.
75.
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. JAS
1996 Fedorovich et al.pdf
76.
Fedorovich, E. E., and A. E. Kirimov,
1988: Double-parameter description of turbulence in the models of the
stratified boundary layer over the inclined surface. Abstr. Int. Symp. on the
Atmospheric Boundary Layer in the Urban Conditions, Erevan, USSR.
77.
Fedorovich, E. E., and A. E. Kirimov,
1989: Modelling atmospheric boundary layer along inclined surface in the
framework of the b-e closure
scheme for hydro- and thermodynamics equations. Abstr. Summer School, Krasnoyarsk, in Russ.
78.
Fedorovich, E. E., and A. E. Kirimov,
1991: Two-parameter turbulence closure schemes in the slope wind modelling. Proc. 8th Symp. on Turbulent Shear Flows, Munich, Germany, 2, II-5-1,2.
79.
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. JAS
1995 Fedorovich & Mironov.pdf
80.
Fedorovich, E., F. T. M. Nieuwstadt,
and R. Kaiser, 2001a: 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. JAS
2001 Fedorovich et al Part I.pdf
81.
Fedorovich, E., F. T. M. Nieuwstadt,
and R. Kaiser, 2001b: 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. JAS
2001 Fedorovich et al Part II.pdf
82.
Fedorovich, E., R. Rotunno, and B.
Stevens, Eds. 2004d: Atmospheric
Turbulence and Mesoscale Meteorology. Cambridge University Press, 240 pp.
83.
Fedorovich, E., and A. Shapiro, 2006a: Oscillatory flow
regimes in turbulent katabatic flows retrieved from direct numerical
simulations. Abstr. 17th AMS Symposium on Boundary Layers and Turbulence, American
Meteorological Society, May 22-25, 2006, San Diego, USA, J6.13.
84.
Fedorovich, E., and A. Shapiro, 2006b: Effects of rotation
and turbulence-wave interactions in numerically simulated katabatic flows. Abstr.
International Workshop on Stable Boundary Layers, Arizona State University and Army Research Office, November 13-16,
2006, Sedona, USA, 25.
85.
Fedorovich,
E., and A. Shapiro, 2008: Scaling
relationships for slope flows. Abstr. 18th AMS
Symposium on Boundary Layers and Turbulence, June 9-13, 2008, Stockholm,
Sweden, 14A.4.
86.
Fedorovich,
E., and A. Shapiro, 2009a: Turbulence and
waves in numerically simulated slope flows. Mécanique & Industries,
10, 175-179. MI
2009 Fedorovich & Shapiro.pdf
87.
Fedorovich,
E., and A. Shapiro, 2009b: Structure of
numerically simulated katabatic and anabatic flows along steep slopes. Acta Geophysica,
57, 981-1010. AG
2009 Fedorovich & Shapiro.pdf
88.
Fedorovich,
E., and A. Shapiro, 2009c: Turbulent natural convection along a
vertical plate immersed in a stably stratified fluid. J. Fluid Mech., 636, 41-57. JFM
2009 Fedorovich & Shapiro.pdf
89.
Fedorovich, E., and A. Shapiro, 2013:
Velocity and buoyancy oscillations in turbulent slope flows: do they live or do
they die? Abstr. Davos Atmosphere and Cryosphere Assembly (DACA-13), Davos, Switzerland, July 8-12,
2013.
90.
Fedorovich, E., and A. Shapiro, 2013: Oscillatory turbulent boundary-layer flows along thermally
perturbed sloping surfaces. Abstr. 2013
American Geophysical Union Fall Meeting, 9-13 December, San Francisco, California, USA, paper A53G-01.
91.
Fedorovich,
E., and A. Shapiro, 2014: Boundary-layer similarity in a numerically simulated
oscillatory turbulent katabatic flow. Geophysical
Research Abstracts, 16,
EGU2014-7544, 2014.
92.
Fedorovich, E., and A. Shapiro, 2017: Oscillations in
Prandtl slope flow started from rest. Q. J. R. Meteorol. Soc.,
143, 670-677. QJRMS
2017 Fedorovich & Shapiro.pdf
93.
Fedorovich, E., and J. Thäter,
2000: Turbulent transport across a sheared inversion at the convective boundary
layer top. Advances in Turbulence VIII, C. Dopazo
et al., Eds., CIMNE Publication, Barcelona, Spain, 367-370. Advances
in Turbulence 8 2000 Fedorovich & Thaeter.pdf
94.
Fedorovich, E., and J. Thäter, 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. JoT 2001 Fedorovich & Thaeter.pdf
95.
Fedorovich, E., and J. Thäter,
2002: A wind tunnel study of gaseous tracer dispersion in the convective
boundary layer capped by a temperature inversion. Atmospheric Environment, 36, 2245-2255. AE
2002 Fedorovich & Thaeter.pdf
96.
Garratt, J. R., and E. Fedorovich, 2015: Introducing Research Letters to Boundary-Layer Meteorology. Bound.
Layer Meteorol., 154, 349-350.
97.
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. JAS
2017 Gebauer et al.pdf
98.
Gebauer,
J., A. Shapiro, E. Fedorovich, and P. Klein, 2016: The role of
the nocturnal low-level jet in convection initiation over eastern Kansas on 2
June 2016. Abstr. 22nd AMS Symposium on Boundary Layers and Turbulence, June
20-24, 2016, Salt Lake City, USA, 14B.3.
99.
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. MWR
2018 Gebauer et al.pdf
100.
Gibbs, J., and
E. Fedorovich, 2012: Comparison of convective boundary layer velocity spectra
calculated from large eddy simulation and WRF model data. Abstr. 20th AMS Symposium on Boundary Layers and Turbulence, July
9-13, 2012, Boston, USA, 5B.3.
101.
Gibbs, J. A., and E. Fedorovich,
2014a: 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. JAMC
2014 Gibbs & Fedorovich.pdf
102.
Gibbs, J. A.,
and E. Fedorovich, 2014b: Effects
of temporal discretization on turbulence statistics and spectra in numerically
simulated convective boundary layers. Bound. Layer Meteorol., 153, 19-41. BLM
2014 Gibbs & Fedorovich.pdf
103.
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. QJRMS
2016 Gibbs & Fedorovich.pdf
104.
Gibbs, J. A., and E.
Fedorovich, 2020a: On
the evaluation of the proportionality coefficient between the turbulence
temperature spectrum and structure parameter. J. Atmos. Sci., 77, 2761-2763. JAS
2020a Gibbs & Fedorovich.pdf
105.
Gibbs, J. A., and E.
Fedorovich, 2020b: Structure functions
and structure parameters of velocity fluctuations in numerically simulated
atmospheric convective boundary layer flows. J. Atmos. Sci., 77, 3619-3629. JAS
2020b Gibbs & Fedorovich.pdf
106.
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. Meteorol. Clim., 50, 2429-2444. JAMC
2011 Gibbs et al.pdf
107.
Gibbs, J. A.,
E. Fedorovich, B. Maronga, C. Wainwright, and M. Dröse,
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. MWR
2016 Gibbs et al.pdf
108.
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. BLM
2015 Gibbs et al.pdf
109.
Ilyin, B. M.,
E. E. Fedorovich, and E. N. Churina, 1988: Algorithm
for the calculation of the climatic characteristics of the global radiation
using routine observational data. Meteorologiya i Gidrologiya, No. 1,
118-123, in Russ. Engl. translation in Meteorology and Hydrology, Wash.,
D.C. Available from NTIS, Springfield, VA 22161, MGA (1990), 41:6-282.
110.
Ilyin, B. M.,
E. E. Fedorovich, and E. N. Churina, 1989: Experience
of splines application for calculation of the climatic characteristics of the
global radiation using routine observational data. Trudy GGO, 523, in Russ.
111.
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. JAS
1998 Kaiser & Fedorovich.pdf
112. Kastner-Klein,
P., R. Berkowicz, and E. Fedorovich, 2001: Evaluation of scaling concepts for traffic-produced
turbulence based on laboratory and full-scale concentration measurements in
street canyons. Abstr. 2nd Intern. Conf. on Urban Air Quality, 19-23 March 2001, Loutraki, Greece. Extended abstract is available on the 2UAQ CD, paper RAQ 3.3.
113. Kastner-Klein,
P., S. Di Sabatino, M. Ketzel, A. Kovar-Panskus,
P. Louka, S. Trini Castelli, R. Berkowicz,
R. Britter, E. Fedorovich, and J.-F. Sini, 2002: The
modeling of traffic produced turbulence. Optimisation of Modelling Methods for Traffic Pollution
in Streets, Final Report
of the EU TMR Project TRAPOS, European
Commission, Brussels.
114.
Kastner-Klein,
P., and E. Fedorovich, 1999a: Diffusion from a line source deployed in a
homogeneous roughness layer: interpretation of wind-tunnel measurements by
means of simple mathematical models. Abstr. EC391 EUROMECH
Colloq. on Wind Tunnel Modelling of Dispersion in Environmental Flows.
13-15 September, Prague, Czech Republic, 21-22.
115.
Kastner-Klein,
P., and E. Fedorovich, 1999b: Wind tunnel study of concentration and flow
fields near street canyon intersections. Abstr. EC391 EUROMECH Colloq. on Wind Tunnel Modelling of Dispersion in
Environmental Flows. 13-15 September, Prague, Czech Republic, 23-24.
116.
Kastner-Klein,
P., and E. Fedorovich, 2002: Diffusion from a line source deployed in a homogeneous
roughness layer: interpretation of wind tunnel measurements by means of simple
mathematical models. Atmospheric
Environment, 36, 3709-3718. AE
2002 Kastner-Klein & Fedorovich.pdf
117.
Kastner-Klein,
P., E. Fedorovich, and R. Berkowicz, 1998:
Application of LDA technique to flow and turbulent diffusion diagnosis in a
wind-tunnel model of urban street canyon with moving vehicles. Abstr. Workshop on Flow Diagnosis Techniques, 30 June – 3 July 1998, State Marine
Technology University, St. Petersburg, Russia, p. 15.
118.
Kastner-Klein,
P., E. Fedorovich, M. S. Ketzel, R. Berkowicz, and R. Britter, 2003:
The modelling of turbulence from traffic in urban dispersion models – Part II: Evaluation against laboratory and full-scale
concentration measurements in street canyons. Environmental Fluid Mechanics, 3,
145-172. EFM
2003 Part II Kastner-Klein et al.pdf
119.
Kastner-Klein,
P., E. Fedorovich, N. Kljun, and M. W. Rotach, 2001a: Dispersion of gaseous
plume in the sheared convective boundary layer: evaluation of a Lagrangian
particle model versus wind tunnel simulation data. Proc. Third Intern. Symp. on Environmental Hydraulics,
5-8 December 2001, Tempe, Arizona, USA, 6pp. (ISEH2001 Abstracts, 130). ISEH
2001 Kastner-Klein et al.pdf
120.
Kastner-Klein,
P., E. Fedorovich, and E. Plate, 1996: Wind-tunnel case studies of atmospheric
dispersion in the urban environment. Proc.
4th Workshop on Harmonisation within Atmospheric
Dispersion Modelling for Regulatory Purposes, 6-9 May 1996, Oostende,
Belgium, 2, 435-442.
121.
Kastner-Klein,
P., E. Fedorovich, and E. Plate, 1997: Gaseous pollutant dispersion around
urban-canopy elements: wind tunnel case studies. Int. J. Environment and Pollution, 8, 727-737. IJEP
1997 Kastner-Klein et al.pdf
122.
Kastner-Klein,
P., E. Fedorovich, and M. W. Rotach, 1999a: Organised
and turbulent air motions in a wind tunnel model of a street canyon with and
without moving vehicles. Abstr. Sixth Intern. Conf. on Harmonisation
within Atmospheric Dispersion Modelling, 11-14 October 1999, Rouen, France,
229-230. Full text of the paper is available on the CD of 6harmo99 Proceedings,
paper N97.
123.
Kastner-Klein,
P., E. Fedorovich, and M. W.
Rotach, 2001b: A wind tunnel study of organized and turbulent air motions in
urban street canyons. J. Wind Eng. Ind. Aerodyn,
89, 849-861. JWEAIA
2001 Kastner-Klein et al.pdf
124.
Kastner-Klein,
P., E. Fedorovich, J.-F. Sini, and P. G. Mestayer, 2000a: Experimental and
numerical verification of similarity concept for dispersion of car exhaust
gases in urban street canyons. Environmental
Monitoring and Assessment, 65,
353-361. EMA
2000 Kastner-Klein et al.pdf
125.
Kastner-Klein, P., M. Ketzel, S. Di Sabatino, R. Berkowicz,
R. Britter, and E. Fedorovich, 2002: Significance of traffic produced turbulence
for urban dispersion modeling. Proc.
Fourth AMS Symp. on Urban
Environment, 20-24 May 2002, Norfolk, Virginia, USA, J13-J14. 4th
AMS UE Kastner-Klein et al.pdf
126.
Kastner-Klein,
P., J.-F. Sini, E. Fedorovich, and P. G. Mestayer, 1999: Similarity concept for
dispersion of car exhaust gases in street canyons tested against wind-tunnel
and numerical model data. Abstr. 2nd Intern.
Conf. on Urban Air Quality, 3-5 March 1999, Madrid, Spain, 86-87.
127.
Kastner-Klein,
P., M. W. Rotach, M. J. Brown, E. Fedorovich, and R. E. Lawson, 2000b: Spatial variability of mean flow and
turbulence fields in street canyons. Proc.
Third AMS Symp. on Urban
Environment. 14-18 August 2000, Davis, California, USA, 13-14. 3rd
AMS UE Kastner-Klein et al.pdf
128.
Kastner-Klein,
P., M. W. Rotach, and E. Fedorovich, 2000c: Experimental study of mean flow and turbulence characteristics in an
urban roughness sublayer. Proc. 14th
AMS Symp. on Boundary Layer
and Turbulence. 7-11 August 2000, Aspen, Colorado, USA, 306-309. 14th
AMS BLT 2000 Kastner-Klein et al.pdf
129.
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. AFM
2004 Kljun et al.pdf
130.
Kljun, N., P. Kastner-Klein,
M. W. Rotach, and E. Fedorovich, 2001: Evaluation
of a 3D Lagrangian footprint model with wind tunnel datasets for the convective
boundary layer. Abstr. XXVI General Assembly of the European
Geophysical Society, Annales Geophysicae.
March 26-30, 2001, Nice, France.
131.
Kljun
N., P. Kastner-Klein, M. W. Rotach, and E.
Fedorovich, 2002: Evaluation of the
Lagrangian footprint model LPDM-B using wind-tunnel data sets. Proc. 15th AMS Symp. on Boundary Layers and Turbulence, 15-19
July 2002, Wageningen, The Netherlands, 293-294. 15th
AMS BLT 2002 Kljun et al.pdf
132.
Lapshina, Ye.
G., Sokolova, G. P., and E. E. Fedorovich, 1992:
Comparison of various methods for the near-surface heat, moisture, and momentum
fluxes evaluation on the basis of the traditional meteorological observations. Trudy GGO, 539, 70-84, in Russ.
English abstract in MGA (1993), 44:11-404.
133.
LeMone, M. A., W. Angevine, C.
Bretherton, F. Chen, J. Dudhia, E. Fedorovich, K. Katsaros, D. Lenschow, L. Mahrt,
E. Patton, J. Sun, M. Tjernström, and J. Weil, 2019: 100 years of progress in
boundary layer meteorology. AMS
Meteorological Monographs, 59,
Chapter 9. AMSMM
2019 LeMone et al.pdf
134.
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. QJRMS
2018 Liu et al.pdf
135.
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. JAS
2019 Liu et al.pdf
136.
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. ATM
2018 Liu et al.pdf
137.
Mironov, D., and E. Fedorovich, 2008: Effect of the Earth's rotation on the equilibrium depth of a stably
stratified barotropic planetary boundary layer. Abstr. 18th AMS Symposium on Boundary Layers and Turbulence, June
9-13, 2008, Stockholm, Sweden, 16B.1.
138. 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. QJRMS
2010 Mironov & Fedorovich.pdf
139.
Mordovina, L. S.,
and E. E. Fedorovich, 1989: Comparison of the pressure reduction methods used
in the international operational practice. Trudy
GGO, 523, in Russ.
140.
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. JAMC
2017 Nemunaitis-Berry et al.pdf
141.
Plate, E. J., E. E. Fedorovich, D. X. Viegas, and J. C. Wyngaard, Eds., 1998: Buoyant Convection in Geophysical Flows,
Kluwer, 504 pp.
142.
Ribeiro, J. C., P. Kastner-Klein,
and E. Fedorovich, 1999: Wind tunnel study of flow fields in street canyons
with moving vehicles. Abstr. Third SATURN Workshop, 23-24 September
1999, Aveiro, Portugal, p. 35.
143.
Scipión, D., A. M. Botnick,
P. B. Chilson, E. Fedorovich, and R. D. Palmer, 2008a: Evaluation of averaging
strategies for the retrieval of convective boundary layer turbulence
parameters. Proc.
14th International Symposium for the Advancement of Boundary Layer Remote
Sensing, June
23-25, 2008, Roskilde, Denmark. 14th
ISARS 2008 Scipion et al.pdf
144.
Scipión, D., P. B. Chilson, E. Fedorovich, and R. D.
Palmer, 2006a: Characterization of the daytime
convective boundary layer using an advanced radar simulator. Proc. 7th Internat.
Symp. on Tropospheric
Profiling, June 7-11, 2006, Boulder, USA, 4-10,11, CD-ROM,
P5M.12.
145.
Scipión, D., P. Chilson, E. Fedorovich, and R. Palmer,
2006b: Advanced radar simulator for the daytime atmospheric
convective boundary layer. Abstr. 13th International Symposium for the Advancement of Boundary Layer Remote
Sensing, July 17-20, 2006,
Garmisch-Partenkirchen, Germany.
146.
Scipión, D., P. B. Chilson, E. Fedorovich, and R. D.
Palmer, 2008b: Evaluation of an LES-based wind
profiler simulator for observations of a daytime atmospheric convective
boundary layer. J. Atmos. Oceanic Technol., 25, 1423-1436. JTECH
2008 Scipion et al.pdf
147.
Scipion D., P.
Chilson, R. Palmer, and E. Fedorovich, 2012: Effects of vertical velocity shear on mean wind and turbulence kinetic
energy estimates using Doppler beam swinging and spaced antenna techniques. Abstr. 13th Int. Symp. on Equatorial Aeronomy, March 12-17, 2012, Paracas,
Peru.
148.
Scipión, D., E. Fedorovich, A. Botnick,
R. D. Palmer, and P. Chilson, 2008c: Radar
measurements of turbulence parameters in the convective boundary layer. Poster at the 2008 CEDAR Workshop, June
15-11, 2008, Midway, USA.
149.
Scipión, D., E. Fedorovich, R. Palmer, P. Chilson,
and A. M. Botnick, 2009a: Turbulence kinetic energy and dissipation rate
estimated from a virtual wind profiler and verified through large-eddy
simulations. Preprints, 34th Conference on Radar Meteorology, Amer.
Meteorol. Soc., 5-9 October, 2009, Williamsburg, Virginia, USA, 4B.3.
34th
AMS Radar Met 2009 Scipion et al.pdf
150.
Scipión, D., R. D. Palmer, P. B. Chilson, E.
Fedorovich, and A. M. Botnick, 2009b: Retrieval of convective boundary
layer wind field statistics from radar profiler measurements in conjunction
with large eddy simulation. Meteorologische Zeitschrift, 18, 175-187. MZ
2009 Scipion et al.pdf
151.
Scipión, D., R. D. Palmer, P. B. Chilson, E.
Fedorovich, R. J. Doviak, G. Zhang, and A. M. Botnick,
2009c: Effects of horizontal shear of vertical velocity in DBS and SA mean wind
estimates revealed by a combination of LES and virtual radar. Proc. 25th Internat. Conf. on Interactive Information and Processing
Systems for Meteorology, Oceanography, and Hydrology, January 12-15, 2009, Phoenix, USA. 25th
ICIIPS 2009 Scipion et al.pdf
152.
Scipión, D., R. D. Palmer, E. Fedorovich, P. B.
Chilson, and A. M. Botnick, 2007: Structure of a daytime convective boundary layer
revealed by a virtual radar based on large eddy simulation. Preprints, 33rd Conference on Radar Meteorology, Amer.
Meteorol. Soc., 6-10 August, 2007, Cairns, Australia, CD-ROM, 13B.3.
33rd
AMS Radar Met 2007 Scipion et al.pdf
153.
Shapiro, A., B. Burkholder, and E. Fedorovich, 2010:
Katabatic flow induced by a top-hat profile of down-slope surface
cooling. Abstr. 19th AMS Symposium on Boundary Layers and Turbulence, August
2-6, 2010, Keystone, Colorado, USA.
154.
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. BLM
2012 Shapiro et al.pdf
155.
Shapiro, A., and E. Fedorovich, 2003: Pressure work effects
in unsteady convectively driven flow along a vertical plate.
Proc. 3rd Intern. Conf. on Computational Heat and Mass Transfer, 26-30 May
2003, Banff, Canada, 606-615. 3rd
ICCHMT 2003 Shapiro & Fedorovich.pdf
156.
Shapiro, A., and E. Fedorovich, 2004a: Unsteady
convectively driven flow along a vertical plate immersed in a stably stratified
fluid. J. Fluid Mech., 498, 333-352. JFM
2004 Shapiro & Fedorovich.pdf
157.
Shapiro, A., and E. Fedorovich, 2004b: 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. IJHMT
2004 Shapiro & Fedorovich.pdf
158.
Shapiro, A., and E. Fedorovich, 2005a: Analytical and
numerical study of natural convection in a stably stratified fluid along
vertical plates and cylinders with temporally-periodic surface temperature
variations. Progress in
Computational Heat and Mass Transfers, 1,
R. Bennacer, A. A. Mohamad, M. El Ganaoui,
J. Sicard, Eds., Lavoisier, 77-82. Progress
Comp. Heat Mass Transfer 2005 Shapiro & Fedorovich.pdf
159.
Shapiro, A., and E. Fedorovich, 2005b: Katabatic flow along
a differentially cooled sloping surface in a stratified fluid. Preprints, 11th AMS Conference on Mesoscale Processes,
Amer. Meteorol. Soc., 24-29 October,
Albuquerque, USA, CD-ROM, P5M.12.
160.
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. JFM
2006 Shapiro & Fedorovich.pdf
161.
Shapiro, A., and E. Fedorovich, 2007a: Katabatic
flow along a differentially cooled sloping surface. J. Fluid Mech., 571, 149-175. JFM
2007 Shapiro & Fedorovich.pdf
162.
Shapiro,
A. and E. Fedorovich, 2007b: Coriolis effects in inhomogeneous katabatic flows. Abstr. 16th AMS
Conference on Atmospheric and Oceanic Fluid Dynamics, 25-29 June 2007, Santa Fe, New Mexico, USA.
163.
Shapiro, A., and E. Fedorovich, 2007c: Analytical and
numerical studies of natural convection along doubly infinite vertical plates
in stratified fluids. Proc. 5th Baltic Heat Transfer Conference, 2, 19-21 September 2007, Saint Petersburg, Russia, 250-269. 5th
BHTC 2007 Shapiro & Fedorovich.pdf
164. Shapiro, A., and E. Fedorovich,
2008a: Coriolis effects in homogeneous and inhomogeneous katabatic flows. Q. J. R.
Meteorol. Soc., 134, 353-370. QJRMS
2008 Shapiro & Fedorovich.pdf
165. Shapiro, A., and E. Fedorovich, 2008b: Coriolis effects in heterogeneous
katabatic flows. Abstr. 18th AMS
Symposium on Boundary Layers and Turbulence, June 9-13, 2008, Stockholm,
Sweden, 14A.3.
166.
Shapiro,
A., and E. Fedorovich, 2009a: Nocturnal low-level jet over a shallow slope. Acta
Geophysica, 57, 950-980. AG
2009 Shapiro & Fedorovich.pdf
167.
Shapiro,
A., and E. Fedorovich, 2009b: Analytical study of a nocturnal
low-level jet over a shallow slope. Proc. XIX Congrès Français de Mécanique, Marseille, France, August 24-29, 2009, paper
1355. 19th
CFM 2009 Shapiro & Fedorovich.pdf
168.
Shapiro,
A., and E. Fedorovich, 2009c: Boundary layer flows along
sloping surfaces. Preface to special issue of Acta Geophysica,
57, 801-802. AG
2009 Preface Shapiro & Fedorovich.pdf
169.
Shapiro,
A., and E. Fedorovich, 2010: Analytical description of a nocturnal low-level jet. Q. J. R.
Meteorol. Soc., 136, 1255-1262. QJRMS
2010 Shapiro & Fedorovich.pdf
170.
Shapiro, A., and E. Fedorovich, 2011: Horizontal
buoyancy-driven flow along a differentially cooled underlying surface. Proc. 6th Baltic Heat Transfer
Conference, 24-26 August 2011, Tampere,
Finland, CD-ROM, ISBN 978-952-15-2640-4, 10 pp. 6th
BHTC 2011 Shapiro & Fedorovich.pdf
171.
Shapiro, A., and E. Fedorovich, 2012a: Similarity
solutions for horizontal convection flow along a discontinuously cooled surface.
Proc. 3rd Int. Symp.
on Shallow Flows, June 4-6, 2012, Iowa City, USA. ISSF
2012 Shapiro & Fedorovich.pdf
172.
Shapiro, A., and E. Fedorovich, 2012b: Secularly growing oscillations in a
stratified rotating fluid. Phys.
Fluids, 24, 054107 (2012).
PF
2012 Shapiro & Fedorovich.pdf
173.
Shapiro, A., and E. Fedorovich, 2012c: Growing
oscillations in a sheared rotating stratified flow. Abstr. Workshop on Wave-Turbulence Interactions in
Stable Atmospheric Boundary Layers, July 23-27, Boulder, Colorado,
USA.
174.
Shapiro, A., and E. Fedorovich, 2013a:
Assessing a new scaling hypothesis for turbulent katabatic flow along a planar
slope. Abstr. Davos Atmosphere and Cryosphere Assembly (DACA-13), Davos, Switzerland, July 8-12,
2013.
175.
Shapiro, A., and E. Fedorovich, 2013b: Similarity models for
unsteady free convection flows along a differentially cooled horizontal surface.
J. Fluid Mech., 736, 444-463. JFM
2013 Shapiro & Fedorovich.pdf
176.
Shapiro, A., and E. Fedorovich, 2014: A
boundary-layer scaling for turbulent katabatic flow. Bound. Layer Meteorol., 153, 1-18. BLM
2014 Shapiro & Fedorovich.pdf
177.
Shapiro, A., and E. Fedorovich, 2019: An analytical model of an urban heat island circulation in calm
conditions.
Environmental
Fluid Mechanics, 19, 111-135. EFM
2019 Shapiro & Fedorovich.pdf
178.
Shapiro,
A., E. Fedorovich, and J. Gebauer, 2016: Vertical motion
in the nocturnal low-level jet arising from a spatially-varying initial state. Abstr. 22nd AMS Symposium on Boundary Layers and Turbulence, June
20-24, 2016, Salt Lake City, USA, 4A.4.
179.
Shapiro, A., E. Fedorovich, and J. Gebauer, 2018: Mesoscale
ascent in nocturnal low-level jets. J. Atmos. Sci., 75, 1403-1427. JAS
2018 Shapiro et al.pdf
180.
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. GMD
2015 Shapiro et al.pdf
181.
Shapiro, A., E. Fedorovich, and S. Rahimi, 2015: Accounting for topographic and frictional forcings in a
unified theory of the nocturnal low-level jet. Abstr. 26th General Assembly of the International Union of Geodesy and
Geophysics (IUGG), Prague, Czech Republic, June 22 - July 2, 2015.
182.
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. JAS
2016 Shapiro et al.pdf
183.
Shapiro, A., C. Wall, and E. Fedorovich, 2006: Coriolis effects in katabatic flow along a
differentially cooled sloping surface in a stratified fluid. Abstr. 17th AMS Symposium on Boundary Layers and Turbulence, May
22-25, 2006, San Diego, USA, 5.5.
184.
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. EFM
2017 Smith et al.pdf
185.
Smith,
E., J. Gibbs, E. Fedorovich, and T. Bonin, 2015: Effects of numerical grid spacing on nocturnal low-level jets reproduced
with the WRF model. Abstr. 2015
WRF User Workshop, June 2015, NCAR, Boulder, USA.
186.
Smith,
E., J. Gibbs, E. Fedorovich, and T. Bonin, 2016a: WRF model
study of the Great Plains low-level jet: effects of grid spacing and boundary
layer parameterization. Abstr. 22nd
AMS Symposium on Boundary Layers and Turbulence, June
20-24, 2016, Salt Lake City, USA, 14B.1.
187.
Smith,
E., J. Gibbs, E. Fedorovich, and T. Bonin, 2016b: Effects of PBL parameterizations on nocturnal low-level jets reproduced
with the WRF model. Abstr. 2016
WRF User Workshop, June 2016, NCAR, Boulder, USA.
188.
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. MWR
2019 Smith et al.pdf
189.
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. JAMC
2018 Smith et al.pdf
190.
Sokolova, G. P.,
and E. E. Fedorovich, 1991: Application of the numerical model for the
calculation of turbulent fluxes and profiles of meteorological values in the
atmospheric surface layer on the basis of standard meteorological observations.
Trudy GGO, 530, 100-108, in Russ. English abstract in MGA (1992), 43:9-74.
191.
Timanovskaya, R. G.,
and E. E. Fedorovich, 1983: An algorithm of the heat balance components
automated control. Trudy GGO, 473, in Russ.
192.
Thäter J., and
E. Fedorovich, 1999: A wind tunnel study of gaseous-tracer dispersion in the
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