: Open a "3D Window" to visualize imported data and perform Quality Control (QC) to check for spatial inconsistencies. 3. Seismic Interpretation Workflow
Select to model porosity.
Well A (GR Log) Well B (GR Log) ┌───┐ ┌───┐ │ ├─── [Top Reservoir] ────>│ ├─── [Top Reservoir] │ │ │ │ │ ├─── [Base Reservoir] ───>│ ├─── [Base Reservoir] └───┘ └───┘ Setting Up a Well Section Window petrel tutorial
: This ensures your time and depth measurements align correctly.
): Usually populated using the porosity-permeability relationship ( 5. Volumetrics and Uncertainty : Open a "3D Window" to visualize imported
Schlumberger’s Petrel is the industry-standard software platform for subsurface interpretation, 3D geological modeling, and reservoir simulation. This tutorial provides a comprehensive, step-by-step walkthrough for building a robust static and dynamic reservoir model from scratch. 1. Introduction to the Petrel Interface and Project Setup
Map your primary reservoir boundary horizons (e.g., Top Reservoir, Base Reservoir). 4. Well Log Correlation and Stratigraphy Well A (GR Log) Well B (GR Log)
Define curves and capillary pressure tables under the Rock Physics section. Well Engineering and Completion Convert your geological well paths into simulation wells.
Right-click the interpreted horizon and select to convert the sparse points into a continuous structural surface using convergent interpolation algorithms. 3. Well Correlation and Stratigraphy