Insert your seismic surfaces and well tops into the 3D grid framework to define the main structural boundaries.
Create a coarser 3D grid simulation model (e.g., combining four cells into one).
Do you need help setting up the parameters for your well-to-seismic tie? Share public link petrel tutorial
The Ultimate Petrel Tutorial: From Seismic to Simulation Schlumberger’s Petrel is the industry-standard software platform for subsurface performance. It integrates seismic interpretation, geological modeling, reservoir engineering, and simulation. This comprehensive tutorial provides a step-by-step workflow to master Petrel, moving from raw data import to dynamic reservoir simulation. 1. Project Setup and Data Import
Insert the structural surfaces generated from seismic interpretation into the newly built 3D pillar grid frame. Insert your seismic surfaces and well tops into
Once the geometric "cage" (3D grid) is built, you populate the cells with rock and fluid properties based on well log data.
Define your desired grid cell size (e.g., 50m x 50m) based on your computational limitations and geological complexity. Share public link The Ultimate Petrel Tutorial: From
Go to the workflow window. Select your upscaled grid, fluid properties, rock functions, initial conditions (pressure and saturation states), and development strategies.
Export and run the case using a simulator engine like or INTERSECT .
Located at the top, organized by operational steps (e.g., Home, Stratigraphy, Seismic Interpretation, Structural Modeling).
Before any modeling begins, you must establish a solid project framework to ensure all subsequent data is geographically and physically accurate.