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Tidal Energy Loss, Internal Tide Radiation, and Local Dissipation for Two-Layer Tidal Flow over a Sill

Artikel i vetenskaplig tidskrift
Författare Lars Arneborg
P. Jansson
A. Staalstrom
Göran Broström
Publicerad i Journal of Physical Oceanography
Volym 47
Nummer/häfte 7
Sidor 1521-1538
ISSN 0022-3670
Publiceringsår 2017
Publicerad vid Institutionen för marina vetenskaper
Sidor 1521-1538
Språk en
Länkar doi.org/10.1175/jpo-d-16-0148.1
Ämnesord stratified flow, knight inlet, ocean, fjord, circulation, turbulence, driven, model, bores, topography, Oceanography, acey mw, 1985, journal of physical oceanography, v15, p1652, igebrandt a, 1976, journal of physical oceanography, v6, p486
Ämneskategorier Geovetenskap och miljövetenskap

Sammanfattning

A simple analytical model for tidal energy loss at fjord sills and its partitioning into local dissipation and radiated internal tides is presented. The analytical model builds on a two-layer assumption with quasi-steady nonlinear flow over the sill and wave radiation in the far field. When the interface is situated above sill level, upstream-and downstream-propagating internal waves are generated as the bottom-layer flow becomes partially blocked because of a hydraulic control over the sill. When this control sets in, energy is lost in the transition from supercritical flow over the sill to subcritical flow downstream of the sill. The analytical model is compared with observations at the Drobak sill in the Oslo Fjord and with idealized numerical simulations with a nonhydrostatic primitive equation model. The overall good agreement between observations, analytical model, and numerical model results indicates that the hydraulic control over the sill is a key player for both the generation of internal tides and the local energy loss. The tidal energy loss decreases with increasing height of the interface above the sill. At the same time, the fraction of energy dissipated locally increases from about 20% for the interface situated at sill level to > 50% when the upper-layer thickness is less than about 80% of the sill depth. These results correspond well with the observations in the Oslo Fjord where more energy is dissipated near the sill than is radiated away.

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