Selection of boundary conditions for modeling the turbulent exchange processes within the atmospheric surface layer

Muhartova Ju.V., Mangura P.A., Levashova N.T., Olchev A.V.
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One- and two-dimensional hydrodynamic models of turbulent transfer within the atmospheric surface layer under neutral thermal stratification are considered. Both models are based on the solution of system of the timeaveraged equations of Navier – Stokes and continuity using a 1.5-order closure scheme as well as equations for turbulent kinetic energy and the rate of its dissipation. The influence of the upper and lower boundary conditions on vertical profiles of wind speed and turbulence parameters within the atmospheric surface layer was derived using an one-dimensional model usually applied in case of an uniform ground surface. The boundary conditions in the model were prescribed in such way that the vertical wind and turbulence patterns were well agreed with widely used logarithmic vertical profile of wind speed, linear dependence of turbulent exchange coefficient on height above ground surface level and constancy of turbulent kinetic energy within the atmospheric surface layer under neutral atmospheric conditions. On the basis of the classical one-dimensional model it is possible to obtain a number of relationships which link the vertical wind speed gradient, turbulent kinetic energy and the rate of its dissipation. Each of these relationships can be used as a boundary condition in our hydrodynamic model. The boundary conditions for the wind speed and the rate of dissipation of turbulent kinetic energy were selected as parameters to provide the smallest deviations of model calculations from classical distributions of wind and turbulence parameters. The corresponding upper and lower boundary conditions were used to define the initial and boundary value problem in the two-dimensional hydrodynamic model allowing to consider complex topography and horizontal vegetation heterogeneity. The two-dimensional model with selected optimal boundary conditions was used to describe the spatial pattern of turbulent air flow when it interacted with the forest edge. The dynamics of the air flow establishment depending on the distance from the forest edge was analyzed. For all considered initial and boundary value problems the unconditionally stable implicit finite-difference schemes of their numerical solution were developed and implemented.

Keywords: atmospheric surface layer, turbulent transfer, hydrodynamic model, boundary conditions
Citation in English: Muhartova Ju.V., Mangura P.A., Levashova N.T., Olchev A.V. Selection of boundary conditions for modeling the turbulent exchange processes within the atmospheric surface layer // Computer Research and Modeling, 2018, vol. 10, no. 1, pp. 27-46
Citation in English: Muhartova Ju.V., Mangura P.A., Levashova N.T., Olchev A.V. Selection of boundary conditions for modeling the turbulent exchange processes within the atmospheric surface layer // Computer Research and Modeling, 2018, vol. 10, no. 1, pp. 27-46
DOI: 10.20537/2076-7633-2018-10-1-27-46
URL: http://crm-en.ics.org.ru/journal/article/2654/
Creative Commons License This work is licensed under a Creative Commons Attribution-NoDerivs 3.0 Unported License.
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