Unify Geology, Geophysics, and Reservoir Engineering
Identifying and recovering hydrocarbons require accurate, high-resolution geological modeling of the reservoir structure and stratigraphy. The Petrel geology capabilities, all seamlessly unified with the geophysical and reservoir engineering tools, enable an integrated study by providing an accurate static reservoir description that evolves with the reservoir.
Petrel Geoscience Core
A full suite of reservoir characterization modules includes the ability to generate well correlation panels, and perform traditional mapping and plotting techniques and 3D reservoir modeling, seamlessly integrated with the simulation environment. The Workflow Editor tool allows for workflow automation and rapid model updates, reducing project cycle time and maximizing efficiency.
Petrel Structural Framework
Construction and automation of complex fault frameworks enable the transition from a complex framework to traditional corner point grids, including new hybrid IJK and total IJK (stair-step) models, and provide a more accurate representation of interpreted data to evaluate uncertainties in volumetrics, porosity, permeability, structure or any other relevant property for better prospect definition and improved well placement.
Charge, trap, and reservoir can be tested in the unified Petrel environment to evaluate hydrocarbon maturation and migration.
Display and organize your logs in a flexible 2D visualization environment.
Analyze data interactively to gain a better understanding of the trends within your data.
Calculate fluid flow properties and sealing potential for faults in a Petrel model.
Estimate your facies distributions using a variety of pixel- and object-based stochastic and deterministic methods.
Assign petrophysical values to cells in a 3D grid; use a number of different deterministic and stochastic modeling techniques.
Convert your seismic data to depth and resample the seismic attribute into the 3D structural grid as a property.
Create hybrid networks with discrete and implicit fractures to characterized fractured reservoirs based on well log interpretation, structural and/or seismic data in 3D.
Estimate well logs, surfaces, seismic volumes, and 3D property models using neutral network technology.
Design well paths, identify surface locations, pick targets, and adjust trajectories dynamically in a 3D canvas to find the optimal solution.
Evaluate the risk and understand the uncertainty of your reservoir , or create and modify your own workflow to achieve maximum understanding of your field.
Display images such as scanned maps, attribute maps, seismic time-slices, or satellite images draped over structural models.
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