Ekman-Type Boundary Layer Over the Anisotropic Underlying Surface

An extensive literature is devoted to the study of the boundary layer of the atmosphere over an inhomogeneous underlying surface. However, the specificity of anisotropic boundary layers, when the effective roughness and drag coefficient depend on the wind direction, has been studied to a much lesser extent. Such situations, in addition to cases of anisotropic relief, exist, for example, when the wind interacts with ordered vegetation (forest plantations) or ordered buildings. There are known facts of anisotropy of resistance over a rough sea surface. In this note, we consider a stationary nonlinear analytical model of the Ekman-type boundary layer with anisotropic resistance. The results show that the effects of anisotropy can be noticeable.

1. Kaimal J.C., Finnigan J.J. Atmospheric Boundary Layer Flows: Their Structure and Measurement. Oxford, Oxford University Press, 1994. 304 p.

2. Lee X. Fundamentals of Boundary-Layer Meteorology. Cham, Springer, 2018. 256 p.

3. Byzova N.L. On the profiles of wind and meso-roughness over an inhomogeneous underlying surface. Trudy IEM. 1987, 41(126), 61–70 (in Russian).

4. Emeis S. Wind energy meteorology. Atmospheric physics for wind power generation wind energy. Cham, Springer, 2018. 255 p.

5. Repina I.A., Artamonov A. Yu., Varentsov M.I., Kozyrev A.V. Experimental study of high wind sea surface drag coefficient. Physical Oceanography. 2015, 1, 49–58. doi: 10.22449/1573–160X-2015–1–49–58

6. Galushko V.V., Ordanovich A.E. Two-layer model of the Ekman atmospheric boundary layer. Russ. Meteorol. Hydrol. 1978, 4, 33–34.

7. Ingel L. Kh., Mikhaylova L.A. Theory of the Ekman boundary layer with nonlinear boundary conditions. Izvestya, Atmos and Oceanic Phys. 1990, 26, 7, 499–503.

8. Ingel L. Kh. On the nonlinear dynamics of the boundary layer of intense atmospheric vortex. Dyn. Atmos. Oceans. 2005, 40, 4, 295–304.