WMS:GSSHA Digital Dams: Difference between revisions

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===Visualization===
===Visualization===
WMS now has two ways to visualize digital dams. These options are accessible on the 2D Grid tab of the Display Options dialog. Toggle on the ''Digital Dams'' option to have WMS identify digital dams is by looking for cells that are lower than their four neighbors. The cells that meet this criterion will be identified with a small square marker in the middle of the cell.  
WMS now has two ways to visualize digital dams. These options are accessible on the ''2D Grid'' tab of the ''Display Options'' dialog. Toggle on the ''Digital Dams'' option to have WMS identify digital dams is by looking for cells that are lower than their four neighbors. The cells that meet this criterion will be identified with a small square marker in the middle of the cell.  


The second method of visualization is employed by toggling on the Flow Vectors option in the ''2D Grid'' tab of the ''Display Options'' dialog.  WMS displays flow direction arrows between cells based only on the differences in cell elevation. GSSHA computes overland flow based on the hydraulic grade surface, but this is often approximately equal to the elevation surface. A digital dam occurs when all four flow direction arrows indicate flow only coming into cell and not leaving the cell.  
The second method of visualization is employed by toggling on the Flow Vectors option in the ''2D Grid'' tab of the ''Display Options'' dialog.  WMS displays flow direction arrows between cells based only on the differences in cell elevation. GSSHA computes overland flow based on the hydraulic grade surface, but this is often approximately equal to the elevation surface. A digital dam occurs when all four flow direction arrows indicate flow only coming into cell and not leaving the cell.  

Revision as of 18:09, 4 February 2013

Digital dams occur where a stream leaves a cell at or near a corner. Since flow occurs between adjacent cells and not between diagonal cells, the stream leaving at the cell corner leaves behind two stream banks adjacent to the flowing cell. These two stream banks block the overland flow, which can create numerical instabilities and will pool up the flowing water behind the banks. WMS now has several ways to visualize and adjust digital dams in the overland flow plane.

Visualization

WMS now has two ways to visualize digital dams. These options are accessible on the 2D Grid tab of the Display Options dialog. Toggle on the Digital Dams option to have WMS identify digital dams is by looking for cells that are lower than their four neighbors. The cells that meet this criterion will be identified with a small square marker in the middle of the cell.

The second method of visualization is employed by toggling on the Flow Vectors option in the 2D Grid tab of the Display Options dialog. WMS displays flow direction arrows between cells based only on the differences in cell elevation. GSSHA computes overland flow based on the hydraulic grade surface, but this is often approximately equal to the elevation surface. A digital dam occurs when all four flow direction arrows indicate flow only coming into cell and not leaving the cell.

File:GSSHA flow vectors.gif

A grid is shown with flow vectors (blue arrow) and digital dam markers (black squares). The flow vectors show the direction of flow between adjacent cells. The digital dam markers indicate cells where all four neighboring cells are higher in elevation.

A method to help visualize the computational flow surface where the digital dams are is to turn on the Blocked Cells option in the 2D Grid display options. Blocked cells treat each grid as a planar surface and draw them as such. A vertical line is drawn connecting the cell corners. Blocked cells are often used in combination with cell-filled contours.

GSSHA Cell Fill Block Style Digital Dams.jpg

The cells can be drawn in a block style that affords greater visualization of the computational surface. The black squares indicate cells where digital dams exist. The cells in this diagram are also cell filled, meaning that the cell is colored in one color based on the elevation of the center of the cell.

Modification

There are two ways in WMS of fixing digital dams.

The first method is to run the CleanDam algorithm found in the GSSHA | Clean Digital Dams... menu command. CleanDam slightly alters the cell elevations in order to fix the digital dams. A summary of the CleanDam results can be viewed before closing the WMS Model Wrapper dialog. WMS automatically reads in the new elevations and replaces the existing elevation data set.

The other method of correcting any remaining digital dams is to manually adjust the cell elevations. Sometimes changing the grid resolution can help initially eliminate digital dams.


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