PetroMod 2D TecLink: Applies the complete range of PetroMod tools to complex tectonic environments. It provides fully PVT-controlled, 3-phase/n-component petroleum generation and migration modeling and is available in 2D. TecLink 2D is able to link to structural reconstructions coming from Dynel 2D software and all major commercial structural modeling packages.
PetroMod PetroRisk module: A technically advanced risk-management system to assess charge risks and follow the entire migration path to provide probability estimates for accumulations. It enables uncertainties in geologic input data (lithofacies properties and distributions, source rocks, boundary conditions, etc.) and their effects on the simulation outcome to be quantified and statistically evaluated. Exploration risking is performed within the framework of a fully integrated dynamic geologic model in which all variables affecting charge, trap, and timing risks are contained and interrelated in a consistent physical earth model.
Phase Kinetics wizard: Bridges the gap to phase/component analyses in reservoir modeling. The Phase Kinetics wizard helps users define geochemical input data for the immature stage of the source rock and establish the properties of the petroleum generated in the oil window. PetroMod simulators—in combination with advanced 3-phase, n-component petroleum migration modeling methods—enable phase and property calculations using flash calculations, improving predictions of petroleum phases and properties such as API gravities and gas/oil ratios (GOR).
BioPets Risk: An integrated tool that systematically compares biodegradation scenarios to quantify the potential effects of biodegradation. Based on thermal history of the observed reservoir, including degradation rates and charge history, the BioPets tool calculates biodegradation for each hydrocarbon component as well as the properties of biodegraded petroleum such as API and viscosity.
Geomechanics (PetroMod 2D and 3D): Defines elastic properties of lithologies to simulate the stress-and-strain field of the model. Stress and strain directly influence the calculated material properties; this tool yields a more accurate pore pressure prediction, especially in compressional and extensional tectonic settings.
Gas hydrates (PetroMod 2D and 3D): Simulates the stability zone of gas hydrates through time. The simulation of gas hydrate generation is coupled directly to the generation and migration of hydrocarbons from the source and is included in the material balance of the model.
Parallel Processing: Minimizes processing times using available workstations—extremely cost-effective, especially for full 3D simulations.
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