GMS:Horizons Wizard: Difference between revisions

From XMS Wiki
Jump to navigationJump to search
Line 29: Line 29:


Beginning with GMS 7.0, when creating solids, the user can choose the option ''Preserve projection TIN datasets''. This option will create a new TIN that will have a dataset for each horizon. This is often useful so that the user can see the result of the interpolation process for each Horizon. The user can then edit the TIN by hand and include the TIN when executing the '''Horizons→Solids''' command.
Beginning with GMS 7.0, when creating solids, the user can choose the option ''Preserve projection TIN datasets''. This option will create a new TIN that will have a dataset for each horizon. This is often useful so that the user can see the result of the interpolation process for each Horizon. The user can then edit the TIN by hand and include the TIN when executing the '''Horizons→Solids''' command.
:[[File:HorizonsWizard3b.png|thumb|none|500 px|The ''Build Solids'' step of the ''Horizons'' wizard]]


When creating a 3D mesh for a FEFLOW simulation, make sure to turn on the ''Prevent pinchouts (FEFLOW mesh)'' option. This will ensure that the mesh will contain all prism elements and that every mesh layer is continuous throughout the mesh.
When creating a 3D mesh for a FEFLOW simulation, make sure to turn on the ''Prevent pinchouts (FEFLOW mesh)'' option. This will ensure that the mesh will contain all prism elements and that every mesh layer is continuous throughout the mesh.

Revision as of 22:41, 5 April 2022

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 Wizard is used to create solids, a 3D mesh, or HUF layers from horizon data. The wizard is started via the Horizons → Solids, Horizons → 3D Mesh, Horizons → UGrid, and Horizons → HUF commands. These commands are in the TIN and Boreholes menus.

Step 1

The first step is to define the inputs to be used, which can include boreholes, TINs, and a Horizon Conceptual model.

  • Boreholes – This section contains options for using boreholes.
    • Use boreholes
    • Use borehole cross sections
    • Representing missing horizons implicitly
    • Use all boreholes
    • Select borehole folder
  • TINs – This section has options for using TINs.
  • Use horizon TINs
  • Use all TINs
  • Select TIN folder
  • Raster Catalog – The dropdown allows selecting a raster catalog in the project.
  • Conceptual model – This section has options for using horizon conceptual models.


The Horizon Elevation step of the Horizons wizard

Step 2

The second step is to define the top and bottom of the solid, mesh, or HUF layers. When creating HUF data, the grid elevations can be edited.

The Top and Bottom Elevations step of the Horizons wizard

Step 3

The third step is to define the interpolation method to be used, as well as options specific to creating solids, a mesh, or HUF package.

Beginning with GMS 7.0, when creating solids, the user can choose the option Preserve projection TIN datasets. This option will create a new TIN that will have a dataset for each horizon. This is often useful so that the user can see the result of the interpolation process for each Horizon. The user can then edit the TIN by hand and include the TIN when executing the Horizons→Solids command.

The Build Solids step of the Horizons wizard

When creating a 3D mesh for a FEFLOW simulation, make sure to turn on the Prevent pinchouts (FEFLOW mesh) option. This will ensure that the mesh will contain all prism elements and that every mesh layer is continuous throughout the mesh.

The Build Mesh step of the Horizons wizard