friction_velocity

metpy.calc.friction_velocity(u, w, v=None, perturbation=False, axis=-1)[source]

Compute the friction velocity from the time series of velocity components.

Compute the friction velocity from the time series of the x, z, and optionally y, velocity components.

Parameters:
  • u (array_like) – The wind component along the x-axis
  • w (array_like) – The wind component along the z-axis
  • v (array_like, optional) – The wind component along the y-axis.
  • perturbation ({False, True}, optional) – True if the u, w, and v components of wind speed supplied to the function are perturbation velocities. If False, perturbation velocities will be calculated by removing the mean value from each component.
Returns:

array_like – The corresponding friction velocity

Other Parameters:
 

axis (int) – The index of the time axis. Default is -1

See also

kinematic_flux()
Used to compute the x-component and y-component vertical kinematic momentum flux(es) used in the computation of the friction velocity.

Notes

The Friction Velocity is computed as:

\[u_{*} = \sqrt[4]{\left(\overline{u^{\prime}w^{\prime}}\right)^2 + \left(\overline{v^{\prime}w^{\prime}}\right)^2},\]

where :math: overline{u^{prime}w^{prime}} and :math: overline{v^{prime}w^{prime}} are the x-component and y-components of the vertical kinematic momentum flux, respectively. If the optional v component of velocity is not supplied to the function, the computation of the friction velocity is reduced to

\[u_{*} = \sqrt[4]{\left(\overline{u^{\prime}w^{\prime}}\right)^2}\]

For more information on the subject, please see [Garratt1994].