Petrel Tutorial Fix

For historical periods (History Matching), constrain your wells to follow actual reported fluid rates (e.g., Liquid Rate Control).

[Seismic Data] ──> [Map Horizon Pick] ──> [Fault Stick Mapping] ──> [Pillar Gridding Framework] Horizon and Fault Picking Open a 2D or 3D window and display your seismic volume. Select the process.

Right-click on the Input Pane background and select . Select your * SEGY (*.sgy or .segy) file.

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 petrel tutorial

Converting seismic interpretation into a structural framework.

Map key surfaces (e.g., Top Reservoir, Base Reservoir).

A successful model relies on clean, properly formatted subsurface data. Importing Well Data Right-click on the Input Pane background and select

Use the Structural Framework QC manager to automatically find and fix fault-fault intersection errors.

Open the process. Insert your depth-converted seismic horizons and well tops as data inputs.

Distribute porosity and permeability values, often conditioned to the facies model using Sequential Gaussian Simulation (SGS) . 7. Volume Calculation and Simulation Well Correlation and Petrophysics

, connecting seismic interpretation, geological modeling, and reservoir simulation in a single environment. 1. Project Initialization & Setup

Convert these sticks into clean, continuous triangulated 3D fault surfaces. Ensure overlapping or intersecting faults are properly joined to form realistic fault networks. Pillar Gridding This step defines the horizontal ( ) framework of your 3D grid. Open the process.

Convert interpreted points and sticks into continuous 3D surfaces using the Make Surface process. 4. Well Correlation and Petrophysics