Localizing effect of Langmuir circulations on small-scale turbulence in shallow water
Wall-resolved and wall-modelled large-eddy simulations are performed to study the
localizing effect of Langmuir cells (LCs) on small-scale background turbulence in shallow
water. The total velocity fluctuations are decomposed into an LC content extracted by
streamwise averaging and a background turbulence part. Based on the large-scale motions
of LCs, the spanwise domain is divided into three regions dominated by the upwelling,
spanwise and downwelling flows of LCs, respectively. The localized Reynolds stresses in …
localizing effect of Langmuir cells (LCs) on small-scale background turbulence in shallow
water. The total velocity fluctuations are decomposed into an LC content extracted by
streamwise averaging and a background turbulence part. Based on the large-scale motions
of LCs, the spanwise domain is divided into three regions dominated by the upwelling,
spanwise and downwelling flows of LCs, respectively. The localized Reynolds stresses in …
Wall-resolved and wall-modelled large-eddy simulations are performed to study the localizing effect of Langmuir cells (LCs) on small-scale background turbulence in shallow water. The total velocity fluctuations are decomposed into an LC content extracted by streamwise averaging and a background turbulence part. Based on the large-scale motions of LCs, the spanwise domain is divided into three regions dominated by the upwelling, spanwise and downwelling flows of LCs, respectively. The localized Reynolds stresses in the central region of the water column under various flow conditions with different values of the Reynolds number, turbulent Langmuir number and wavenumber.
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