Content Comparison

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After the model has been saved, the Executable button will now be enabled. Click on the Executable button to start run the WASP model, and the runtime simulation interface will be displayed as shown in Figure 11 below.

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(2) Browse to the WASP output file (*.BMD2) 

(3) Click the OK button (Figure 12). 

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(6) Click the Close button to close the form and plot the output series (Figure 13).

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The mass check data time series will be plotted as shown in Figure 14 below.

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Figure 14.  Data series plotted by WRDB Graph.

As shown in Figure 14, the mass check concentration of the segments approaches 1.0 mg/L.  It means the simulation is run for a sufficient duration and reaches to steady state.

Figure 15 shows a comparison of the water velocity in WASP and EFDC at cell yy. The two curves are almost identical, provide verification of the flow information from the hydrodynamic linkage.

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(4) Click the OK button to save settings (Figure 16)

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After adding water quality constituents to the WASP model, we will now add the boundary condition in the next step. From the WASP interface, go to Pre-processor\Boundary Condition and Loads as shown in Figure 17 below.

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(3) After filling the data series for all boundaries, click OK to save the boundary data (Figure 18).

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From the WASP interface, go to Pre-processor\Constants as shown in Figure 19.

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(3) Set the parameter values for constant groups as shown in Figure 20 to Figure 23;

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(4) Click OK button to save settings after set the kinetic parameters as shown in Figure 23;

After set the model parameters, from toolbar, click on the Output Control button to open Output Control form and add the water quality constituents to the output as shown in Figure 24.

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(2) Check on the checkbox corresponding to the parameter will be written out as shown in Figure 25 to Figure 27;

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(3) Click the OK button to save settings as shown in Figure 27;

After finishing the settings for the model, from the toolbar,

• Save the model;
• Run WASP model as shown in Figure 28

Figure 28.  Save and run WASP model.

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(3) Click the OK button (Open WASP output from WRDB Graph Figure 29). 

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(6) Click the Close button to close the form and visualize the output series (Figure 30).

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The data series will be plotted as shown in Figure 31 below.

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Note: In the bottom right corner of the Manage Data Series form, the Graph Type frame is available to allow the user to view the output in different ways, as shown in Figure 32 below.

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For graph types like Longitudinal Profile, Depth Profile, for which the value change by time, the timing bar is available in the bottom of the WRDB Graph window (Figure 33). Therefore, the user can move the time or run animation to see how the output changes in a profile.

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Some output comparison graphs are shown in Figure 34 to Figure 38 below.

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