JewelSuite Geo Mechanics Is a professional software for designing 1 to 3D models. Create robust and professional models for better and more accurate analysis of potential geo mechanical hazards . Also define and design its performance for better drilling efficiency. Also minimize the potential hazards (drilling). JewelSuite Geo Mechanics software has the tools you need to design models and reduce risks, and it is enough for you to learn how to use them. Also, the relatively simple user interface of the program allows you to fully learn to work with different tools in the shortest possible time and have a detailed analysis without any guidance. JewelSuite Geo Mechanics Helps you identify stresses and mechanical properties of rocks on faults using stress. You can also identify fractures and different orientations of faults and reduce the potential hazards of the specified areas. The wonderful and varied modules that are included in this program will all help you in this regard. Create drilling models and consider their hazards.
1D Model module
Rapidly build and analyze well-centric geo mechanical models with JewelSuite Geo Mechanics. The 1D Model module also enables you to reliably predict abnormal pressure incidents during drilling to mitigate kicks, blowouts, and lost circulation. You can predict pore pressure using traditional methods such as Eaton, equivalent depth ration and Bowers calibrated with drilling data. You can also access advanced methods such as buoyancy, centroid, and effects of injection or depletion.
Wellbore Stability module
Reliably forecast wellbore instability before, during and after drilling to mitigate wellbore collapse, tight hole, stuck pipe, fishing, kicks, lost circulation, formation damage, casing deformation, and sidetracks.
The Wellbore Stability module enables you to quickly evaluate the drilling risk for proposed well plans by calculating wellbore failure along the well trajectory for a proposed mud program and predict the required mud weight to support wellbore stability and evaluate your casing design to prevent wellbore failure.
3D Model module
Capture the varying stresses, pore pressures, and rock properties of your entire field and build precise 3D geo mechanical models from 3D structural models and 1D well models. The 3D Model module addresses moderately complex geology without major stress distortions and overcomes the limitations of 1D depth stretching that can be used for wells in simple geology by honoring structural and stratigraphic constraints.
Fault and Fracture Stability module
Quickly model fault structures, stress, and pore pressure and analyze the effects of pressure changes during drilling and production operations. With the fault and fracture stability module, you can also analyze caprock integrity in order to determine the proximal distance to failure if pore pressure communication exists between your reservoir and surrounding rock.
Key features
A wide range of modeling tools focused on speed of analysis and ease of use are provided, allowing you to perform the following tasks:
- Import petrophysical logs from the study well and offset wells, from files and in real time.
- Interactively create composite logs.
- Determine lithology and shale volume from gamma log measurements.
- Import and display measured formation pressure tests, gas kicks, leak off pressures, loss of circulation, and mud weights.
- Enter and display a well schematic.
- Incorporate interval velocity information from seismic data.
- Calculate and interactively modify overburden profile from composite density using bulk density and acoustic and user-defined curves.
- Interactively draw and modify normal compaction trend lines.
- Calculate pore pressure from trend line methods and interactively draw an interpreted pore pressure profile.
- Interpret SHmin, and SHmax.
- Calculate fracture gradient using several methods.
- Define local porosity–effective stress relationships.
- Identify, interpret, calibrate and predict loading and unloading depth zones.
- Calculate centroid and buoyancy effects in permeable formations.
- Calculate Poisson’s ratio, Young’s modulus, rock strength, friction angle, and compressibility.
- Calculate porosity from density, acoustic and resistivity logs.
These tasks, among others, can be completed using sequence of dedicated workflow forms that guide you through the various high level workflows in a logical and intuitive way.