مطالعه تخصصی شکستگی | TrapTester 7.1

نوشته شده توسط Super User. ارسال در مدل سازی زمین شناسی

T7, the successor to TrapTester, is an intuitive 3D workspace in which to accurately interpret, validate, model, build and analyze from air-tight framework to fault seal, stress and fracture prediction. T7 offers the ability to create and translate your robust geological model into a truly representative cellular grid, enabling population and analysis of Earth Models using some of the most advanced grid-based tools in the market.




T7 offers the ability to interpret in a fully interactive 3d environment. Pick on sections, horizons, faults, slices or directly on cube faces as they scroll in real time revealing the three-dimensional nature of structure. Supporting multiple surveys and multiple co-rendered volumes, the seismic toolkit in T7 is among the most complete available for both 2D and 3D interpretation.

Anyone can quickly become an expert structural geologist with our simple fault analysis and fault statistic tools, allowing you to create robust, defensible models on which to build your geological model.

Effortlessly build and respect structure with T7, a tool developed with real geological structure in mind. T7 handles reverse geometries with ease, allowing for multiple Z horizons, complex fault and horizon geometries, giving you the ability to build an air-tight three-dimensionally consistent model as you interpret.

While all the validation and model building functionality works perfectly in TWT and depth, some advanced processing needs to be done in depth. T7 CORE contains the tools required to convert TWT models to depth.

T7 CORE presents comprehensive interpretation as well as the ability to edit well curves in an intuitive manner, from free hand to controlled stochastic curve creation. CORE contains the tools you need to edit or create any curve needed to complete the workflow.

T7 CORE consists of a suite of modules to make the interpretation of seismic data, building and validation of robust framework models, and editing/incorporation of well data a simple workflow. The geometric freedom in both seismic interpretation and model building is uniquely intuitive. Every element in the 3d viewer is interactive, allowing you to build better models – faster.

For many years Badleys has lead the industry in the field of fault seal analysis. Our Shale Gouge ratio method for assessing fault seal is the industry standard, and T7 is the benchmark for excellence in its application. From the simplicity of Triangle to the power of TrapAnalyst and the ability to assess up-dip and across fault leakage, as well as our advanced GRID capabilities, no matter which phase you are at in the E&P process there is no fault seal software as complete as T7.

Quickly conduct thorough fault seal risks on framework models at geological precision - no other software can boast the depth of detail available in our fault seal toolkit. Create and integrate your own data transformation macros ready to evaluate and display in 3D using your own calibration data. TrapAnalyst is a unique tool capable of automatically assessing multiply faulted traps in stacked reservoirs to provide critical fault-plane spill points and HWCs. Create and integrate your own transformations to evaluate calibration data and to assess uncertainty/sensitivity.

Faults don’t just leak across the plane. If they have reactivated since charge then they may have transmitted fluid up-dip. This can be a positive migration mechanism, or conversely the failure of a trap. Badleys have lead the way since 2001 with in situ stress analysis tools and our software is tempered by years of calibration across the industry and academia. Simply input the stress parameters, select summary or interval-based pore-fluid pressure profiles and instantly create geomechanical plots. Then visualize the stress attributes on faults in the 3D volume to easily identify locations at risk.

We realize that not all fault seal studies will have access to a fully 3d model, or even be appropriate for that type of analysis. For these we provide Triangle, a simple juxtaposition tool that only requires a well curve as input. Used in conjunction with the CORE Well Toolkit module (provided as standard) this can become an extremely powerful tool in exploration, delivering instant updates to the nature of fault seal in an easy to understand format.

Creating realistic CPGs and populating them with meaningful properties has, traditionally, been an involved and time-consuming process. GRID is accelerated by multi-threading, offering you the ability to quickly honour the framework in the CPG. Our geostatistics toolkit is one of the most advanced in the market, and the tools in TransGen remain unparalleled for assessing fault-zone flow properties. Putting it together: the streamlined workflow enables rapid fault seal/transmissibility uncertainty analysis.

All too often a well constructed model is obliterated by the process of cellularization. A corner point grid model that honours the geology is known to be important in later workflows, the time saved in faster history matching far outweighs the time spent creating such a model. EarthGrid allows you to honour the framework created using an enhanced, automated, fast pillar grid process, then populate that model with properties using an advanced geostatistics toolkit.

Once the cell model has been created it is over to TransGen to provide some of the most sophisticated analysis tools in the market. Add faults where they have not been specifically modelled. Add sub-cellular geometry, such as relay faults, to improve the accuracy of simulations. TransGen was the first software to calculate transmissibility multipliers and continues to lead the industry in excellence.

Whether you work in a fractured reservoir or not, it is very likely that fractures are present and significant in your reservoir. Understanding where they are located, in what orientation they exist, and the impact on fluid flow, that they may have, are all key aspects in fully understanding fluid flow in a field. T7 FRAC offers you the tools to investigate these systems with the confidence of years of industry and technical rigour applied using our toolkit.

T7 Fracture Prediction is the mechanical alternative to DFNs and much more. Models are run of mechanical response to the net effects of fault slip, underlying salt uplift/withdrawal and regional strain. These models predict the stress/strain perturbations around the set of seismically mapped faults. At each observation point in the reservoir a wide range of mechanical attributes are calculated - fracture mode, orientation and proxies for fracture density. The result is not only a fracture network with orientation information, but crucially provides the location of higher/lower fracture densities within the field.

In situ stress analysis for well design, mitigating fault reactivation risk or to predict fracture orientations that are most likely to transmit fluids is quick and uncomplicated with our StressTester module. Simply input the stress parameters and instantly create geomechanical plots as well as 3d visualization. Stress analysis can be conducted on framework faults, fracture networks or even cellular CPG faults to inform both the exploration and production phases of your workflow.

T7 is tightly integrated with third party applications via dedicated links. Use these links for importing seismic, attribute volumes, culture, shapes, well and interpretation data as well as cellular CPG models and their properties. Our links are crucial to integrated workflows so when a third party introduces an upgrade, our response and support for our customers is always immediate.


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