Wind Setup: Difference between revisions

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Revision as of 15:24, 28 October 2010

UNDER CONSTRUCTION

Analytical Solution

The analytical solution for wind setup over a constant depth is given by

\eta ={\sqrt {2{\frac {\rho _{a}C_{d}W^{2}}{\rho g}}(x+C)+h^{2}}}-h

(1)

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.

‎

Figure 1. Comparison of computed water surface elevation to the analytical solution for an irregular basin with constant depth.

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@@ Line 3: / Line 3: @@
 <font color=red>'''UNDER  CONSTRUCTION'''</font>
 == Analytical Solution ==
-     {{Equation| <math> \eta = \sqrt{2  \frac{\rho C_d  W^2}{\rho_a g} (x + C ) + h^2} - h </math> |2=1}}
+The analytical solution for wind setup over a constant depth is given by
+     {{Equation| <math> \eta = \sqrt{2  \frac{\rho_a C_d  W^2}{\rho g} (x + C ) + h^2} - h </math> |2=1}}
+where <math>\eta</math> is the water surface elevation, <math>\rho</math> is the water density, <math>\rho_a</math> is the air density, <math>g</math> is the gravitational acceleration, <math>W</math> is the wind speed, <math>h</math> is the water depth, and <math>C</math> is a constant of integration.
+‎[[Image:Wind_Setup_Dir0.png|thumb|left|600px| Figure 1. Comparison of computed water surface elevation to the analytical solution for an irregular basin with constant depth.]]
+<br   style="clear:both" />
 ----

Wind Setup: Difference between revisions

Revision as of 15:24, 28 October 2010

Analytical Solution

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