Monin–Obukhov length

The Obukhov length is used to describe the effects of buoyancy on turbulent flows, particularly in the lower tenth of the atmospheric boundary layer. It was first defined by Alexander Obukhov[1] in 1946.[2][3] It is also known as the Monin–Obukhov length because of its important role in the similarity theory developed by Monin and Obukhov.[4]

The Obukhov length is defined by


L = - \frac{u^3_*\bar\theta_v}{kg(\overline {w^'\theta^'_v})_s}\

where u_* is the frictional velocity, \bar\theta_v is the mean virtual potential temperature, (\overline{w^'\theta^'_v})_s is the surface virtual potential temperature flux, k is the von Kármán constant. The virtual potential temperature flux is given by


\overline {w^'\theta^'_v}=\overline {w^'\theta^'}+0.61\overline{T}\; \overline {w^'q^'}

where \theta is potential temperature, \overline{T} is absolute temperature and q is specific humidity.

By this definition, L is usually negative in the daytime since \overline {w^'\theta^'_v} is typically positive during the daytime over land, positive at night when \overline {w^'\theta^'_v} is typically negative, and becomes infinite at dawn and dusk when \overline {w^'\theta^'_v} passes through zero.

A physical interpretation of L is given by the Monin–Obukhov similarity theory. During the day -L it is the height at which the buoyant production of turbulence kinetic energy (TKE) is equal to that produced by the shearing action of the wind (shear production of TKE).

References

  1. Jacobson, Mark Z. (2005). Fundamentals of Atmospheric Modeling (2 ed.). Cambridge University Press.
  2. Obukhov, A.M. (1946). "Turbulence in an atmosphere with a non- uniform temperature.". Tr. Inst. Teor. Geofiz. Akad. Nauk. SSSR 1: 95–115.
  3. Obukhov, A.M. (1971). "Turbulence in an atmosphere with a non-uniform temperature (English Translation)". Boundary-Layer Meteorology 2: 7–29. Bibcode:1971BoLMe...2....7O. doi:10.1007/BF00718085.
  4. Monin, A.S.; Obukhov, A.M. (1954). "Basic laws of turbulent mixing in the surface layer of the atmosphere.". Tr. Akad. Nauk SSSR Geofiz. Inst 24: 163–187.
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