Petrel Tutorial [exclusive] [FAST]

: Use manual or automated tools to pick horizons and map faults that define the reservoir structure.

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

Run to average the high-resolution well log facies into the larger 3D grid cells intersecting the well paths. Open the Facies Modeling process.

: Use Home > Import File and choose SEG-Y seismic data . petrel tutorial

Start by importing your seismic cube and delineating faults and horizons.

Log data samples rock every few inches, but 3D grid cells are often meters thick. You must average these values into the grid cells intersected by the wellbore. Go to .

What are you working with? (e.g., raw logs, seismic cubes, or well tops) : Use manual or automated tools to pick

Before running a dynamic fluid simulation, calculate the original hydrocarbons in place and optimize the grid size to save computing time. Volumetric Calculations

: Right-click on the "Wells" folder, select Import on Selection , and choose Well logs (ASCII) .

Execute the process to output the or Gas Initially In Place (GIIP) statistics directly into your Results window. 7. Model Upscaling for Dynamic Simulation Geological static models are frequently too dense ( 10710 to the seventh power 10810 to the eighth power Open the Facies Modeling process

: Create a 3D grid based on your interpreted faults and horizons.

[Fault Modeling] ---> [Pillar Gridding] ---> [Horizon Making] ---> [Detailing Zones & Layers] Fault Modeling Move to the process tab.