Estimation of the height of intense turbulent heat exchange layer in the stably stratified atmospheric boundary layer
暂无分享,去创建一个
S. L. Odintsov | V. P. Mamyshev | A. P. Kamardin | I. V. Nevzorova | V. A. Gladkikh | S. L. Odintsov | A. P. Kamardin | I. V. Trofimov | I. V. Trofimov | I. Nevzorova
[1] A. Kurbatskii,et al. Investigation of a stable boundary layer using an explicit algebraic model of turbulence , 2019, Thermophysics and Aeromechanics.
[2] E. Mareev,et al. Theoretical models of the height of the atmospheric boundary layer and turbulent entrainment at its upper boundary , 2012, Izvestiya, Atmospheric and Oceanic Physics.
[3] C. Genthon,et al. Large-Eddy Simulations of the Steady Wintertime Antarctic Boundary Layer , 2019, Boundary-Layer Meteorology.
[4] C. Genthon,et al. Stable Surface-Based Turbulent Layer During the Polar Winter at Dome C, Antarctica: Sodar and In Situ Observations , 2019, Boundary-Layer Meteorology.
[5] Donald H. Lenschow,et al. Determining Boundary-Layer Height from Aircraft Measurements , 2014, Boundary-Layer Meteorology.
[6] V. V. Dudorov,et al. Singular Atmospheric Optics: From Wavefront Dislocations to Synthesis of Vortex Laser Beams , 2020 .
[7] S. Argentini,et al. Observed and Modelled Convective Mixing-Layer Height at Dome C, Antarctica , 2014, Boundary-Layer Meteorology.
[8] Odintsov,et al. Determination of the Structural Characteristic of the Refractive Index of Optical Waves in the Atmospheric Boundary Layer with Remote Acoustic Sounding Facilities , 2019, Atmosphere.