Digitate fault segments on consecutive Inlines, Xlines, or arbitrary lines.
This creates the 3D cage that holds your properties (porosity, permeability).
Ensure that intersecting faults are properly truncated against one another to avoid geometric gaps. Pillar Gridding
The Petrel interface is organized by . For a basic workflow, you'll generally follow this path: Seismic Interpretation: Picking horizons and faults. Pillar Gridding: Creating the framework of your 3D grid. petrel tutorial
Input your upscaled facies logs and define variogram distances to control the horizontal and vertical continuity of the facies bodies. Petrophysical Modeling (Continuous) Open .
Linking seismic data to physical rock properties found in wells.
If you need help with a like workflows, fault-stick modeling, or simulation exporting? Share public link Digitate fault segments on consecutive Inlines, Xlines, or
The Petrel tutorial! Here are some helpful texts related to it:
Located on the left, this tab stores all raw imported data (wells, seismic, horizons, and cultural data).
Key those segments to a specific fault name in your Input tree to group them into a single fault plane. Horizon Interpretation Select the tool. Pillar Gridding The Petrel interface is organized by
Petrel will construct continuous surfaces constrained by both your grid pillars and your structural fault model.
Right-click the Input pane and select .