Craik–Leibovich vortex force
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In fluid dynamics, the Craik–Leibovich (CL) vortex force describes a forcing of the mean flow through wave–current interaction, specifically between the Stokes drift velocity and the mean-flow vorticity. The CL vortex force is used to explain the generation of Langmuir circulations by an instability mechanism. The CL vortex-force mechanism was derived and studied by Sidney Leibovich and Alex D. D. Craik in the 1970s and 80s, in their studies of Langmuir circulations (discovered by Irving Langmuir in the 1930s).
Description
[edit]The CL vortex force is
with the (Lagrangian) Stokes drift velocity and vorticity (i.e. the curl of the Eulerian mean-flow velocity ). Further is the fluid density and is the curl operator.
The CL vortex force finds its origins in the appearance of the Stokes drift in the convective acceleration terms in the mean momentum equation of the Euler equations or Navier–Stokes equations. For constant density, the momentum equation (divided by the density ) is:[1]
with
- (a): temporal acceleration
- (b): convective acceleration
- (c): Coriolis force due to the angular velocity of the Earth's rotation
- (d): Coriolis–Stokes force
- (e): gradient of the augmented pressure
- (f): Craik–Leibovich vortex force
- (g): viscous force due to the kinematic viscosity
The CL vortex force can be obtained by several means. Originally, Craik and Leibovich used perturbation theory. An easy way to derive it is through the generalized Lagrangian mean theory.[1] It can also be derived through a Hamiltonian mechanics description.[2]
Notes
[edit]References
[edit]- Craik, A.D.D. (1990), Wave interactions and fluid flows, Cambridge University Press, pp. 113–122, ISBN 0-521-36829-4, LCCN lc85007803
- Holm, D.D. (1996), "The ideal Craik–Leibovich equations", Physica D, 98 (2): 415–441, Bibcode:1996PhyD...98..415H, doi:10.1016/0167-2789(96)00105-4
- Leibovich, S. (1980), "On wave–current interaction theories of Langmuir circulations", Journal of Fluid Mechanics, 99 (4): 715–724, Bibcode:1980JFM....99..715L, doi:10.1017/S0022112080000857, S2CID 14996095
- Leibovich, S. (1983), "The form and dynamics of Langmuir circulations", Annual Review of Fluid Mechanics, 15: 391–427, Bibcode:1983AnRFM..15..391L, doi:10.1146/annurev.fl.15.010183.002135
- Sullivan, P.P.; McWilliams, J.C. (2010), "Dynamics of winds and currents coupled to surface waves", Annual Review of Fluid Mechanics, 42: 19–42, Bibcode:2010AnRFM..42...19S, doi:10.1146/annurev-fluid-121108-145541
- Thorpe, S.A. (2004), "Langmuir circulation", Annual Review of Fluid Mechanics, 36: 55–79, Bibcode:2004AnRFM..36...55T, doi:10.1146/annurev.fluid.36.052203.071431