Convert interpreted points and sticks into continuous 3D surfaces using the Make Surface process. 4. Well Correlation and Petrophysics
Prepare the model for dynamic simulation (typically for the Eclipse or Intersect simulators) by defining fluid properties and well completion strategies.
Import shapefiles or CAD files representing lease boundaries or infrastructure for geographic context. 3. Seismic Interpretation petrel tutorial
To use well logs in a 3D grid, you must upscale the high-resolution log data into the larger grid cells using methods like "Arithmetic Mean" or "Most Probable." 5. Structural Modeling (Pillar Gridding) This is where the 3D "skeleton" of your reservoir is built.
Convert fault sticks into a clean, interconnected fault framework. Pillar Gridding: Define the horizontal Convert interpreted points and sticks into continuous 3D
Ensure your project is set to the correct units (Metric vs. English).
Use the Input Pane to manage your folders. Logical grouping of "Seismic," "Wells," and "Interpretations" is essential for complex projects. 2. Data Import and Management Import shapefiles or CAD files representing lease boundaries
Comprehensive Petrel Tutorial: Mastering Subsurface Modeling
Always use the Blue Help Button within Petrel. It provides context-specific documentation for every active window, which is invaluable for troubleshooting specific tool parameters.
Populating the grid with geological data like Porosity, Permeability, and Water Saturation.