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0.1m

Stratosphere. Troposphere. 1 km. Planetary Boundary Layer. 10 m. height. Surface Layer. Roughness Layer. 0.1m.

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0.1m

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  1. Stratosphere Troposphere 1 km Planetary Boundary Layer 10 m height Surface Layer Roughness Layer 0.1m The Atmospheric (or Planetary) Boundary Layer is formed as a consequence of the interactions between the atmosphere and the underlying surface over time scales of a few hours to about one day (Arya) Surface Layer. About 1/10 of PBL. Intense small scale turbulence generated by surface roughness and convection. Effects of Earth Rotation negligible. Significant exchanges of momentum, heat, mass. Layer in which human beings, animal and vegetation live. (Arya and Oke) Roughness Layer. Flow highly irregular strongly affected by the nature of the individual roughness features (grass, trees, buildings). (Oke)

  2. Neutral surface boundary Layer Neglecting Buoyancy forces. Turbulent case (High Reynolds number)

  3. At the surface there is a sink of momentum. The momentum flux density (or the force per unit area) is called surface shear stress (t). (Units N/m2, or Pa). The sink of momentum at the surface can also be seen as an horizontal force exerted by the flow on the surface (drag force) in the direction of the mean flow. The opposing force exerted by the surface on the fluid retards the flow.

  4. The shear stress is generated within the lowest layers and transmitted downwards as a vertical flux of horizontal momentum. Since velocity is zero at the surface (no-zero boundary condition), there is a vertical gradient of momentum.

  5. Computation of the vertical wind profile for a horizontally homogeneous neutral surface boundary layer, by similarity arguments (Landau, 1944). z Lev Landau, 1908-1968, Russia x The flow is parallel to the surface

  6. For turbulent flows, (very large Reynolds numbers), we suppose that the vertical gradient of horizontal mean wind will not explicitly involve fluid viscosity. The value of the velocity gradient (dU/dx) at any distance from the surface must be determined by the parameters t (surface shear stress),r (air density) and the distance itself (z).

  7. or, The simplest possibility is How to determine a,b,g ? Dimensional analysis.

  8. As a consequence

  9. friction velocity Integrating Similarly, it is possible to show that turbulent fluxes are constant in the surface layer.

  10. Below zo viscous (or laminar) sublayer Viscosity is important, Re of the order of unity

  11. An alternative way to derive wind vertical profile in the neutral layer. Mixing length approach (Prandtl, 1925) Ludwig Prandtl (1875-1953), Germany The downward flux of momentum is accomplished by random vertical motions.

  12. Molecular analogy. Eddies break away from the main body of the fluid and travel a certain distance, called the mixing length (analogous to the mean free path in kinetic theory of gases) If a “blob” of fluid moves from level z+l to level z, it brings its momentum.

  13. The turbulent vertical flux of momentum is Assuming that in a turbulent flow velocity fluctuations are of the same order in all the directions Negative since we’re considering the case of a fluid moving from z+l to z

  14. In a surface layer turbulent fluxes are (nearly) constants with height. Defining the friction velocity as: We have

  15. Close to the ground the size of the eddies is influenced by the distance from the ground integrating

  16. It works ! Wind speed Moreover, atmospheric measurements show that the variations of turbulent fluxes in the surface layer are less than 10% (nearly constant with height)

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