Eddy flux

In the case of an unchanging mean state, the eddy flux of a property S in the z direction is expressed by where lower case represents turbulence values (fluctuations from the mean), w represents vertical velocity, ρ density, and the bar represents the mean over a chosen period. By analogy with molecular diffusion, the eddy flux in the planetary boundary layer is often expressed by where K_s is the turbulent transfer coefficient (also turbulent exchange coefficient, or eddy diffusivity). This can be generalized to include eddy diffusion in the horizontal (x, y) plane. If S is replaced by c_pT, where c_p represents specific heat at constant pressure and T represents temperature, the vertical turbulent heat flux (or eddy heat flux) can be represented by where θ is the temperature fluctuation, K_h the eddy thermal diffusion coefficient (or eddy conductivity), and Γ represents the adiabatic lapse rate. Similarly, eddy momentum flux is represented by where U represents the mean speed in the direction of the mean wind, and K_m represents the eddy viscosity coefficient (or eddy viscosity). Also, the turbulent transfer of water vapor may be expressed in energy units by where L represents the latent heat of vaporization, K_e is the eddy diffusion coefficient, and is the specific humidity.
See also diffusion, turbulence.