GMS:Horizons Applications: Difference between revisions

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== Modeling a Slope Failure ==
== Modeling a Slope Failure ==
In this example a combination of boreholes, user-defined cross sections, and TINs were used to create solids at a site with a slope failure.
In this example a combination of boreholes, user-defined cross sections, and TINs were used to create solids at a site with a slope failure.
{|
<gallery widths="305 px" heights="220 px">
|[[Image:SlopeXsectBore.png|thumb|Borehole data]]
Image:SlopeXsectBore.png|Borehole data
|[[Image:SlopeXsectTop.png|thumb|Surface elevations]]
Image:SlopeXsectTop.png|Surface elevations
|[[Image:SlopeXsectFailure.png|thumb|Failure surface]]
Image:SlopeXsectFailure.png|Failure surface
|-
Image:SlopeXsect.png|User defined cross sections
|[[Image:SlopeXsect.png|thumb|User defined cross sections]]
Image:SlopeXsectUserXsect.png|One user cross section
|[[Image:SlopeXsectUserXsect.png|thumb|One user cross section]]
Image:SlopeXsectZoom.png|Zoomed in on cross sections
|[[Image:SlopeXsectZoom.png|thumb|Zoomed in on cross sections]]
Image:SlopeXsectSolids.png|Solids created from user data
|-
Image:SlopeXsectSolidsXSects.png|Cross sections from solids
|[[Image:SlopeXsectSolids.png|thumb|Solids created from user data]]
Image:SlopeXsectSolidsXSectsZoom.png|Zoomed in on cross sections
|[[Image:SlopeXsectSolidsXSects.png|thumb|Cross sections from solids]]
</gallery>
|[[Image:SlopeXsectSolidsXSectsZoom.png|thumb|Zoomed in on cross sections]]
|}


== Vertical Boundary Between Solids ==
== Vertical Boundary Between Solids ==
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=== Primary TINs ===
=== Primary TINs ===
To create solids that would match this cross section, create two different primary tins and executed the '''Horizons&rarr;Solids''' command for each primary TIN. The first TIN covered the area of the river and the second TIN covered the remainder of the study area as show in the images below.
To create solids that would match this cross section, create two different primary tins and executed the '''Horizons&rarr;Solids''' command for each primary TIN. The first TIN covered the area of the river and the second TIN covered the remainder of the study area as show in the images below.
{|
 
|[[Image:Tin1.png|400px|border]]
<gallery widths="400 px" heights="290 px">
|[[Image:Tin2.png|400px|border]]
Image:Tin1.png|
|}
Image:Tin2.png|
</gallery>


=== Solids ===
=== Solids ===
There are now TINs that defined the top elevations of the horizon surfaces. There were three TINs used in the area around the river and there were four TINs used the remainder of the study area. Solids were created for the river area using the first TIN as the primary TIN. Solids were also created in remainder of the study area by using the second TIN as the primary TIN. Notice the the bottom most material matches in both sets of solids. This is because the same TIN with that horizon was used when creating both sets of solids.
There are now TINs that defined the top elevations of the horizon surfaces. There were three TINs used in the area around the river and there were four TINs used the remainder of the study area. Solids were created for the river area using the first TIN as the primary TIN. Solids were also created in remainder of the study area by using the second TIN as the primary TIN. Notice the the bottom most material matches in both sets of solids. This is because the same TIN with that horizon was used when creating both sets of solids.
{|
 
|[[Image:Solids_river.png|400px|border]]
<gallery widths="400 px" heights="290 px">
|[[Image:Solids_StudyArea.png|400px|border]]
Image:Solids_river.png|
|}
Image:Solids_StudyArea.png|
</gallery>


=== Cross Sections from Solids ===
=== Cross Sections from Solids ===
These images show the solids together and cross section cut through the solids. Again notice how the bottom most material matches across both sets of solids.
These images show the solids together and cross section cut through the solids. Again notice how the bottom most material matches across both sets of solids.


<gallery widths="400 px" heights="300 px">
<gallery widths="400 px" heights="290 px">
Image:AllSolids.png|
Image:AllSolids.png|
Image:AllSolids_XsectXY.png|
Image:AllSolids_XsectXY.png|

Latest revision as of 15:11, 23 October 2017

Horizons
HorCoverage.png
Links
Horizons
Horizons to Solids
Horizons to 3D Mesh
Horizons to UGrid
Horizons to HUF
Horizons Wizard
Including Borehole Cross Sections
Raster Catalog
Horizons Conceptual Model
Horizons Applications

The horizons method has been applied at a variety of sites to construct solid models of the subsurface. This page highlights example applications of the Horizons Method.

Modeling a Slope Failure

In this example a combination of boreholes, user-defined cross sections, and TINs were used to create solids at a site with a slope failure.

Vertical Boundary Between Solids

In this application, the project required creating a set of solids where there would be distinct materials below a river bed compared to the other materials in the study area. The following cross section shows what a project wanted to create.

Xsect hor application.png


Primary TINs

To create solids that would match this cross section, create two different primary tins and executed the Horizons→Solids command for each primary TIN. The first TIN covered the area of the river and the second TIN covered the remainder of the study area as show in the images below.

Solids

There are now TINs that defined the top elevations of the horizon surfaces. There were three TINs used in the area around the river and there were four TINs used the remainder of the study area. Solids were created for the river area using the first TIN as the primary TIN. Solids were also created in remainder of the study area by using the second TIN as the primary TIN. Notice the the bottom most material matches in both sets of solids. This is because the same TIN with that horizon was used when creating both sets of solids.

Cross Sections from Solids

These images show the solids together and cross section cut through the solids. Again notice how the bottom most material matches across both sets of solids.