Boundary layer energetics of rapid wind and wave forced mixing events

斯托克斯漂移 边界层 湍流动能 机械 物理 消散 动能 惯性波 混合层 破碎波 风应力 湍流 大气科学 气象学 表面波 经典力学 波传播 热力学 天文 量子力学 纵波 机械波
作者
Eric D. Skyllingstad,Roger M. Samelson,Harper Simmons,Lou S. Laurent,Sophia Merrifield,Thilo Klenz,Luca Centuroni
出处
期刊:Journal of Physical Oceanography [American Meteorological Society]
标识
DOI:10.1175/jpo-d-22-0150.1
摘要

Abstract The observed development of deep mixed layers and the dependence of intense, deep-mixing events on wind and wave conditions are studied using an ocean LES model with and without an imposed Stokes-drift wave forcing. Model results are compared to glider measurements of the ocean vertical temperature, salinity and turbulence kinetic energy ( TKE ) dissipation rate structure collected in the Icelandic Basin. Observed wind stress reached 0.8 N m −2 with significant wave height of 4-6 m, while boundary layer depths reached 180 m. We find that wave forcing, via the commonly used Stokes drift vortex force parameterization, is crucial for accurate prediction of boundary layer depth as characterized by measured and predicted TKE dissipation rate profiles. Analysis of the boundary layer kinetic energy (KE) budget using a modified total Lagrangian-mean energy equation, derived for the wave averaged Boussinesq equations by requiring that the rotational inertial terms vanish identically as in the standard energy budget without Stokes forcing, suggests that wind work should be calculated using both the surface current and surface Stokes drift. A large percentage of total wind energy is transferred to model TKE via regular and Stokes drift shear production and dissipated. However, resonance by clockwise rotation of the winds can greatly enhance the generation of inertial current mean KE ( MKE ). Without resonance, TKE production is about 5 times greater than MKE generation, whereas with resonance this ratio decreases to roughly 2. The results have implications for the problem of estimating the global kinetic energy budget of the ocean.

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