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Basin & petroleum systems modelling » IGIBasin & petroleum systems modelling
Fully integrated 1-D, 2-D and 3-D Basin & Petroleum Systems Modelling, providing a highly powerful, iterative and cost-effective solution to address subsurface uncertainties
BPSM utilises key aspects of geological, geophysical and geochemical interpretation into a unified, integrated subsurface model. Depending aims/objectives and data availability a bespoke workflow will be proposed
Powerful integration tool
Coupled thermal-burial histories are fundamental to BPSM, integrating tectonic, sedimentological and fluid properties, calibrated to temperature, pressure and palaeothermometric (e.g., vitrinite reflectance) data
Source rock maturity, generation and expulsion
Quantifying the magnitude and timing of source maturity, and predicted hydrocarbon volumes and phase
Subsidence and thermal histories
Provides critical understanding to source rock maturity, reservoir quality & seal effectiveness
Prediction of in-place volumes & phase
Modelling of reservoir charge volumes/phase/timing, migration and alteration processes
Deterministic and Monte Carlo uncertainty analysis
Discrete scenarios (e.g., migration) or Monte Carlo Simulations (e.g., expulsion volumes in fetch area, PVT prediction of reservoir fluids)
MARUM - Centre for Marine Environmental Sciences, University of Bremen, Germany
Javier García-Pintado & Marta Pérez-Gussinyé
We introduced the usage of a box-size numerical model of miscible multiphase flow, with explicit advection and diffusion in both the liquid and gas phases, to model the migration and…
In petroleum geochemistry, a source rock is classified as an interval of rock that contains sufficient organic matter of the right type that has the potential to generate, or has already generated, commercial quantities of hydrocarbons.
This unusual hopane-like compound is recognised together with the hopanes in the m/z 191 mass chromatogram and was for many years used as a biomarker of hypersalinity due to its common high abundance in sediments deposited under such conditions. However, a key paper by Sinninghe-Damsté et al.
Dedicated experts who have worked in all tectonic settings (e.g., passive margins, igneous affected sedimentary basins, thrust belts)
From regional/bulk data (e.g., heat flow, oil density, GOR) to high-precision analyses (e.g., biomarkers), IGI integrate all available data to build a comprehensive subsurface model
Access to ZetaWare (Genesis, Trinity T3 & Kinex), Platte River BasinMod, SLB PetroMod, Migris, Geomodelling Solutions TecMod-2D
Basin modelling has uses across oil and gas exploration, production, geothermal, CCS, hydrogen exploration
Dedicated experts who have worked in all tectonic settings (e.g., passive margins, igneous affected sedimentary basins, thrust belts)
From regional/bulk data (e.g., heat flow, oil density, GOR) to high-precision analyses (e.g., biomarkers), IGI integrate all available data to build a comprehensive subsurface model
Access to ZetaWare (Genesis, Trinity T3 & Kinex), Platte River BasinMod, SLB PetroMod, Migris, Geomodelling Solutions TecMod-2D
Basin modelling has uses across oil and gas exploration, production, geothermal, CCS, hydrogen exploration
Aims & objectives of BPSM
Common questions
What is the source rock potential?
Source potential is a function of many factors, including (but not limited to) organic content, kerogen type, maturity, expulsion efficiency & thickness, all of which vary temporally and spatially. When properly integrated with calibrated basin models, the petroleum generation/expulsion volumes and phase can be predicted
What volume and phase will be in my prospect?
Integrating source maturity through time, migration routes (e.g., fault seal), reservoir properties, PVT conditions and alteration processes (e.g., biodegradation) allows an estimation of prospect volumes and phase in both deterministic scenarios and stochastic uncertainty analysis. If in a mature basin, calibration to neighbouring discoveries is critical
What are the critical elements/uncertainties?
IGI's workflow always includes risk & uncertainty analysis with distributed ranges of input parameters (e.g., TOC, geothermal gradients), dynamically showing which elements are most sensitive to predicted charge volumes and phase
How and why does heat flow vary across the region?
Coupled thermal-burial histories are fundamental to BPSM, integrating tectonic, sedimentological and fluid properties, calibrated to temperature, pressure and palaeothermometric (e.g., vitrinite reflectance) data
Surely basin modelling is expensive?
For most projects, even building a grid-based 3-D model is a relatively efficient process, providing impactful and powerful results in what is usually a fraction of the time taken for seismic and geological interpretations
How do we keep our model up-to-date?
Project deliverables include key outputs (e.g., digital maps for GIS/Petrel). Modelling files are also included to be updated as and when new data become available
