| 31 |
This example configuration demonstrates using the MITgcm to simulate a |
This example configuration demonstrates using the MITgcm to simulate a |
| 32 |
laboratory demonstration using a differentially heated rotating |
laboratory demonstration using a differentially heated rotating |
| 33 |
annulus of water. The simulation is configured for a laboratory scale |
annulus of water. The simulation is configured for a laboratory scale |
| 34 |
on a $3^{\circ}$ $\times$ 1cm cyclindrical grid with twenty-nine |
on a $3^{\circ}\times1\mathrm{cm}$ cyclindrical grid with twenty-nine |
| 35 |
vertical levels of 0.5cm each. This is a typical laboratory setup for |
vertical levels of 0.5cm each. This is a typical laboratory setup for |
| 36 |
illustration principles of GFD, as well as for a laboratory data |
illustration principles of GFD, as well as for a laboratory data |
| 37 |
assimilation project. |
assimilation project. |
| 210 |
($x,y,z$) map and is enumerated and formatted in the same manner as the |
($x,y,z$) map and is enumerated and formatted in the same manner as the |
| 211 |
bathymetry file. |
bathymetry file. |
| 212 |
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|
| 213 |
\item Lines 66 and 57 |
\item Lines 66 and 67 |
| 214 |
\begin{verbatim} |
\begin{verbatim} |
| 215 |
tCylIn = 0 |
tCylIn = 0 |
| 216 |
tCylOut = 20 |
tCylOut = 20 |
| 217 |
\end{verbatim} |
\end{verbatim} |
| 218 |
These line specify the temperatures in degrees Celsius of the interior |
These line specify the temperatures in degrees Celsius of the interior |
| 219 |
and exterior walls of the tank -- typically taken to be icewater on |
and exterior walls of the tank -- typically taken to be icewater on |
| 220 |
the inside and room temperature on the inside. |
the inside and room temperature on the outside. |
| 221 |
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|
| 222 |
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|
| 223 |
\end{itemize} |
\end{itemize} |
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