Petrel Tutorial ^hot^ Today
Once the wells are established, the next phase is . This involves creating the skeleton of the reservoir. In a traditional workflow, the user interprets seismic data to generate horizons (surfaces representing the top and base of the reservoir) and faults. The user then constructs a "pillar grid," a 3D lattice that defines the geometry of the reservoir. Imagine constructing a building: the horizons and faults are the floors and walls, and the pillar grid is the steel framework that holds everything together. This step is crucial because it respects the structural complexity of the field; if a fault is modeled incorrectly, the fluid flow simulation later on will be inaccurate.
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With seismic data loaded, you can map major faults and geological boundaries across your acreage. Generate Seismic Horizons and Faults Go to the tab on the ribbon.
Click along a seismic discontinuity on your screen to digitize a fault segment. petrel tutorial
Click on a distinct seismic reflector (e.g., a bright continuous peak or trough representing your reservoir top).
Before importing data, you must familiarize yourself with the Petrel user interface (UI) and establish a proper coordinate reference system (CRS). Understanding the UI Modules
: Use manual or automated tools to pick horizons and map faults that define the reservoir structure. Once the wells are established, the next phase is
Open a and select dynamic properties like Pressure or Water Saturation . Use the player animation buttons at the bottom of the screen to watch your fluid contacts change, sweep efficiency evolve, and pressure deplete over the lifetime of your production forecast. To help tailor future tutorials, let me know:
Are you working with a ? (e.g., faulted structural traps, deepwater turbidites, fluvial channels, or carbonates?)
On the left side of your screen is the Input pane. This is not a file browser; it is a database tree. The user then constructs a "pillar grid," a
Before moving further, it's vital to ensure your data is correct. You can do this by visualizing wells in a 3D window and dragging a seismic cube onto the main display to check for alignment and coordinate consistency. This is a core principle in that guides all subsequent work, so always cross-check the locations of your wells, horizons, and faults.
Which do you want to focus on next (e.g., detailed seismic autotracking settings, advanced object modeling for facies, or setting up ECLIPSE fluid properties)?