Distribute porosity and permeability within facies using Sequential Gaussian Simulation (SGS) .
Petrel is a software platform developed by SLB (formerly Schlumberger) that provides an integrated workflow for seismic-to-simulation processes. It is widely used in the oil and gas industry for reservoir modeling, seismic interpretation, and well correlation.
If your Pillar Gridding fails or shows execution errors, look for intersecting fault sticks or self-crossing interpretations. Clean up the source interpretation line-by-line in a 3D window. petrel tutorial
Once your is accurate, you can begin interpretation. You can use the Seismic Interpretation process in the Processes Pane to start mapping.
Prepare the model for dynamic simulation (typically for the Eclipse or Intersect simulators) by defining fluid properties and well completion strategies. If your Pillar Gridding fails or shows execution
Structural modeling is the process of building the framework for your reservoir model. This is often performed using a structured workflow that moves from fault creation to grid generation.
Located on the left, this contains the Input tab (raw data), Models tab (structural and property models), Results tab (outputs), and Templates tab (color bars and property definitions). You can use the Seismic Interpretation process in
: Import standard LAS or DLIS files containing Gamma Ray (GR), Density (RHOB), and Neutron Porosity (NPHI).
Transform your interpreted fault segments into clean, triangulated 3D fault surfaces.
In this Petrel tutorial, we have provided a comprehensive guide to mastering the Petrel software. From getting started with the interface to seismic interpretation, well correlation, and reservoir modeling, we have covered the key features and workflows of Petrel. By following best practices and workflows, you can unlock the full potential of Petrel and improve your exploration and production workflows.