Circular Basin: Difference between revisions

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<font color=red>'''UNDER  CONSTRUCTION'''</font>
<font color=red>'''UNDER  CONSTRUCTION'''</font>
=Analytical Solution=
=Analytical Solution=
Dupont (2001) presented an analytical solution for a closed circular domain on an f-plane, with radius , a linear bottom friction, and a spatially variable wind stress equal to , where is the gradient of the wind forcing and  is the vertical coordinate. The  water surface elevation solution is given by  
Dupont (2001) presented an analytical solution for a closed circular domain on an f-plane, with radius <math> R </math>, a linear bottom friction, and a spatially variable wind stress equal to <math> \tau_{Wx} = Wy/R</math>, <math> \tau_{Wy} = 0</math>
where <math> W</math> is the gradient of the wind forcing and <math> y</math> is the vertical coordinate. The  water surface elevation solution is given by  


{{Equation| <math> \eta =  
{{Equation| <math> \eta =  
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\frac{W{{f}_{c}}}{RgH\kappa }\left[ \frac{{{R}^{2}}}{8}+\frac{{{r}^{2}}}{4}\left( \frac{\kappa }{{{f}_{c}}}\sin 2\theta -1 \right) \right], & \mbox{if } f_c \ne0 \\
\frac{W{{f}_{c}}}{RgH\kappa }\left[ \frac{{{R}^{2}}}{8}+\frac{{{r}^{2}}}{4}\left( \frac{\kappa }{{{f}_{c}}}\sin 2\theta -1 \right) \right], & \mbox{if } f_c \ne0 \\
\end{cases}  </math> |2=1}}
\end{cases}  </math> |2=1}}
The current velocities are independent of the Coriolis parameter and are given by
{{Equation| <math> u = \frac{W y }{2R\kappa </math> |2=2}}
{{Equation| <math> v = -\frac{W x }{2R\kappa </math> |2=3}}


= Setup =
= Setup =

Revision as of 22:52, 11 May 2011

UNDER CONSTRUCTION

Analytical Solution

Dupont (2001) presented an analytical solution for a closed circular domain on an f-plane, with radius , a linear bottom friction, and a spatially variable wind stress equal to , where is the gradient of the wind forcing and is the vertical coordinate. The water surface elevation solution is given by

  (1)

The current velocities are independent of the Coriolis parameter and are given by

  Failed to parse (SVG with PNG fallback (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://en.wikipedia.org/api/rest_v1/":): {\displaystyle u = \frac{W y }{2R\kappa } (2)
  Failed to parse (syntax error): {\displaystyle v = -\frac{W x }{2R\kappa } (3)

Setup

The model is run to steady state from zero current and water level initial conditions with , , and both , and . Figure 1 shows the computational grid with 5 levels of refinement from 2000 m to 125 m.

Figure 1. Computational grid.



Results

Table 2. Goodness of fit statistics for the water elevation

Statistic Value
RMSE 0.0074 m
RMAE 0.0068
R^2 0.991
Bias 0.0017 m


References

  • Dupont, F., 2001. Comparison of numerical methods for modelling ocean circulation in basins with irregular coasts. Ph.D. thesis, McGill University, Montreal.



Test Cases

Documentation Portal