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3.9 Barotropic Ocean Gyre In Cartesian Coordinates
(in directory: verification/tutorial_barotropic_gyre/)
This example experiment demonstrates using the MITgcm to simulate
a Barotropic, wind-forced, ocean gyre circulation. The files for this
experiment can be found in the verification directory tutorial_barotropic_gyre.
The experiment is a numerical rendition of the gyre circulation problem similar
to the problems described analytically by Stommel in 1966
Stommel [1948] and numerically in Holland et. al Holland and Lin [975a].
In this experiment the model
is configured to represent a rectangular enclosed box of fluid,
km in lateral extent. The fluid is
km deep and is forced
by a constant in time zonal wind stress,
, that varies sinusoidally
in the ``north-south'' direction. Topologically the grid is Cartesian and
the coriolis parameter
is defined according to a mid-latitude beta-plane
equation
|
(3.1) |
where
is the distance along the ``north-south'' axis of the
simulated domain. For this experiment
is set to
in
(3.1) and
.
The sinusoidal wind-stress variations are defined according to
|
(3.2) |
where
is the lateral domain extent (
km) and
is set to
.
Figure 3.1
summarizes the configuration simulated.
Figure 3.1:
Schematic of simulation domain and wind-stress forcing function
for barotropic gyre numerical experiment. The domain is enclosed bu solid
walls at
0,1200km and at
0,1200km.
|
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Massachusetts Institute of Technology |
Last update 2011-01-09 |
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