Petrel Tutorial -

Convolve the wavelet with the reflection coefficients to generate a synthetic trace.

Digitally pick fault segments on specific Inlines, Crosslines, or random lines by clicking along the seismic discontinuities.

These markers identify the boundaries of different geological formations. 4. The Workflow: From Seismic to Simulation petrel tutorial

Connect fault segments across multiple lines to generate a clean, continuous 3D fault surface. Horizon Picking Select the tool.

Distributing "properties" like porosity and permeability across your grid using geostatistics. 5. Pro-Tip: Use the "Blue Checkmark" Convolve the wavelet with the reflection coefficients to

Navigate through inlines and crosslines, clicking along fault discontinuities to create fault segments.

Data import is foundational. Petrel handles a variety of formats, but the most common for beginners are and seismic data (SEGY) . You can import well headers, deviation surveys, logs, and formation tops using the Import function in the Input pane. A Petrel tutorial will almost always start by loading a well (LAS) and a seismic (SEGY) dataset. To keep your project clean and manageable, you should organize your loaded data into dedicated folders within the Input pane. petrel tutorial

Before analyzing subsurface data, you must configure your project environment correctly. Mismatched coordinate systems can ruin your entire structural model. Coordinate Reference Systems (CRS) Open Petrel and create a new project. Go to > Project Settings > Coordinates .

STOIIP=GRV×NTG×ϕ×(1−Sw)×1BiSTOIIP equals GRV cross NTG cross phi cross open paren 1 minus cap S sub w close paren cross the fraction with numerator 1 and denominator cap B sub i end-fraction = Gross Rock Volume = Net-to-Gross ratio = Porosity Swcap S sub w = Water Saturation Bicap B sub i = Formation Volume Factor Upscaling for Simulation and Export