Analysis of Derivatives in Atmospheric Hydrothermodynamics Equations Using Experimental Data: Part 1: Equation for the Temperature Field

[1]  S. L. Odintsov,et al.  Comparison of the contributions of turbulent and mesoscale processes to the wind field of the atmospheric surface layer , 2022, Atmospheric and Ocean Optics.

[2]  S. L. Odintsov,et al.  Estimation and Comparison of Mixed Moments of Turbulent and Mesometeorological-Scale Wind Vector Components in the Surface Air Layer , 2022, Atmospheric and Oceanic Optics.

[3]  S. L. Odintsov,et al.  Heat Fluxes in the Surface Air Layer with Decomposition of Initial Components into Different Scales , 2021, Atmospheric and Oceanic Optics.

[4]  P. Roubin,et al.  Fine-Resolution WRF Simulation of Stably Stratified Flows in Shallow Pre-Alpine Valleys: A Case Study of the KASCADE-2017 Campaign , 2021, Atmosphere.

[5]  N. Vercauteren,et al.  Multiscale Shear Forcing of Turbulence in the Nocturnal Boundary Layer: A Statistical Analysis , 2020, Boundary-Layer Meteorology.

[6]  G. Rivin,et al.  Development of the High-resolution Operational System for Numerical Prediction of Weather and Severe Weather Events for the Moscow Region , 2020, Russian Meteorology and Hydrology.

[7]  D. Muñoz‐Esparza,et al.  Simulating Real Atmospheric Boundary Layers at Gray-Zone Resolutions: How Do Currently Available Turbulence Parameterizations Perform? , 2020 .

[8]  S. L. Odintsov,et al.  Statistics of Outer Turbulence Scales in the Surface Air Layer , 2019, Atmospheric and Oceanic Optics.

[9]  R. Beare,et al.  The Onset of Resolved Boundary-Layer Turbulence at Grey-Zone Resolutions , 2019, Boundary-Layer Meteorology.

[10]  Structure of wind gusts in the surface air layer , 2019, Оптика атмосферы и океана.

[11]  Evalution of the TSUNM3 high-resolution mesoscale NWP model , 2019, Оптика атмосферы и океана.

[12]  L. Perret,et al.  Effects of the Upstream-Flow Regime and Canyon Aspect Ratio on Non-linear Interactions Between a Street-Canyon Flow and the Overlying Boundary Layer , 2018, Boundary-Layer Meteorology.

[13]  Rachel Honnert,et al.  Modification of a Parametrization of Shallow Convection in the Grey Zone Using a Mesoscale Model , 2018, Boundary-Layer Meteorology.

[14]  B. Kosović,et al.  Comparison of Measured and Numerically Simulated Turbulence Statistics in a Convective Boundary Layer Over Complex Terrain , 2017, Boundary-Layer Meteorology.

[15]  V. Masson,et al.  Sampling the Structure of Convective Turbulence and Implications for Grey-Zone Parametrizations , 2016, Boundary-Layer Meteorology.

[16]  M. Kanda,et al.  Organized Structure of Active Turbulence Over an Array of Cubes within the Logarithmic Layer of Atmospheric Flow , 2010 .

[17]  F. T. M. Nieuwstadt,et al.  Atmospheric Turbulence and Air Pollution Modelling , 1982 .

[18]  R. Stephenson A and V , 1962, The British journal of ophthalmology.