Long-wave Runup: Difference between revisions

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Revision as of 23:58, 13 January 2011

UNDER CONSTRUCTION

Analytical Solution

where $\eta$ is the water surface elevation, $\rho$ is the water density, $\rho _{a}$ is the air density, $g$ is the gravitational acceleration, $W$ is the wind speed, $h$ is the water depth, and $C$ is a constant of integration.

Model Setup

A computational grid with constant water depth of 5 m and irregular boundaries is used in order to test the model performance. The computational grid has 60 columns and 70 rows and a constant resolution of 500 m.

Initial Condition

Figure 1. Computed water surface elevation for the irregular domain with constant water depth.

Results

‎

Figure 2. Comparison of computed water surface elevation to the analytical solution for an irregular basin with constant depth.

References

Test Cases

Documentation Portal

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@@ Line 8: / Line 8: @@
 == Model Setup ==
 A computational grid with constant water depth of 5 m and irregular boundaries is used in order to test the model performance. The computational grid has 60 columns and 70 rows and a constant resolution of 500 m.
+== Initial Condition ==
+[[Image:Long-wave_Runup_Initial_Water_Level.jpg|thumb|left|600px|   Figure 1. Computed water surface elevation for the irregular domain with  constant water depth.]]
 == Results ==
-[[Image:Wind_Setup_Dir0_WSE.png|thumb|left|600px|  Figure 1. Computed water surface elevation for the irregular domain with constant water depth.]]
+‎[[Image:Long-wave_Runup_Water_Level.jpg|thumb|none|600px| Figure 2. Comparison of computed water surface elevation to the analytical solution for an irregular basin with constant depth.]]
-‎[[Image:Wind_Setup_Dir0_V2.png|thumb|none|600px| Figure 2. Comparison of computed water surface elevation to the analytical solution for an irregular basin with constant depth.]]
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