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W3179676548 endingPage "086601" @default.
W3179676548 startingPage "086601" @default.
W3179676548 abstract "Unsteady nonlinear shallow-water flows typically emit inertia-gravity waves through a process called “spontaneous adjustment-emission.” This process has been studied extensively within the rotating shallow-water model, the simplest geophysical model having the required capability. Here, we consider what happens when the hydrostatic assumption underpinning the shallow-water model is dropped. This assumption is in fact not necessary for the derivation of a two-dimensional or single-layer flow model. All one needs is that the horizontal flow field be independent of height in the fluid layer. Then, vertical averaging yields a single-layer flow model with the full range of expected conservation laws, similar to the shallow-water model yet allowing for non-hydrostatic effects. These effects become important for horizontal scales comparable to or less than the depth of the fluid layer. In a rotating flow, such scales may be activated if the Rossby deformation length (the ratio of the characteristic gravity-wave speed to the Coriolis frequency) is comparable to the depth of the fluid layer. Then, the range of frequencies supporting inertia-gravity waves is compressed, and the group velocity of these waves is reduced. We find that this change in wave properties has the effect of strongly suppressing spontaneous adjustment-emission and trapping inertia-gravity waves near regions of relatively strong circulation." @default.
W3179676548 created "2021-07-19" @default.
W3179676548 creator A5053585039 @default.
W3179676548 creator A5062647592 @default.
W3179676548 date "2021-08-01" @default.
W3179676548 modified "2023-09-23" @default.
W3179676548 title "Balance in non-hydrostatic rotating shallow-water flows" @default.
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W3179676548 doi "https://doi.org/10.1063/5.0057707" @default.
W3179676548 hasPublicationYear "2021" @default.
W3179676548 type Work @default.