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Analysis can be conducted on single wells or concurrently on multiple wells, with full Monte Carlo uncertainty. Techlog Pore Pressure Prediction incorporates industry standard methods to compute pore pressure and fracture gradients and to establish the safe mud-weight window to guide hydraulic safety.
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Elan and Techlog Formation Pressure, supporting the seamless use of pore pressure analyses.
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The user can plan the safe mud-weight window for drilling based on the mechanically stable mud-weight window from breakout to breakdown pressures and look at different wellbore deviation scenarios based on the sensitivity analysis tool in the Techlog wellbore software platform.Īccurately predict pore pressure by using all available calibration data to significantly reduce uncertainties related to drilling. Techlog Wellbore Stability can predict the breakout and breakdown pressure based on the wellbore direction versus the azimuth of the principal stresses.
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The MEM helps the user gain a thorough understanding of the properties of the rock surrounding the wellbore and the in situ stresses, enabling the prediction of potential shear and tensile failures at the borehole walls. The user is guided through the different steps required to build a calibrated mechanical earth model MEMwhich integrates all data. Click OK to continue.The Techlog Wellbore Stability module enables users to further develop the understanding gained from analysis in the Techlog Pore Pressure Prediction module by taking into account the in situ stress states around the wellbore. Make petrophysical interpretation you can trust. Benefits Extract the full value from your acquired measurements. Efficient and fast creation of forward models. Tachometer reading doubleįlexible and comprehensive model-building tools. Features Intuitive drag-and-drop interface. Interpretations you can trust Geometrical effects are observed on log responses in almost all HAHz wells. The Wellbore Centric Grid display The 3D Petrophysics module for HAHz includes a new feature to display visualization of complex azimuthal and radial information around the wellbore trajectory. A new approach The graphical capabilities in the Techlog platform enable a new workflow for valid interpretations in HAHz wells. The 3D petrophysics for high-angle and horizontal wells HAHz lets you efficiently extract the full value from acquired measurements, to make interpretations you can trust. Now, petrophysicists can efficiently extract the full value from acquired measurements to make interpretations they can trust. This new Techlog workflow addresses the most common geometry effects observed in HAHz well logs. Previously, the industry was lacking a readily available interpretation methodology to tackle this very common phenomenon.
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Geometrical effects are observed on log responses in almost all HAHz wells. The 3D Petrophysics module for HAHz includes a new feature to display visualization of complex azimuthal and radial information around the wellbore trajectory.īoosting understanding, and analysis, the Wellbore Centric Grid display provides a platform for azimuthal petrophysics.
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The overall goal of the interpretation is to determine the position and properties of each layer that is traversed by the well.Īs the formation properties determined by the workflow are free of the most common geometric effects in HAHz wells, they can be used in the same petrophysical calculations and workflows applied to vertical wells in the field or reservoir. External sources of geometrical models or remote bed boundary inversion maps may be used to enhance understanding of the formation geometry around the well. The measurements acquired in the HAHz well are used to define the formation geometry around the well and populate the layer properties. The graphical capabilities in the Techlog platform enable a new workflow for valid interpretations in HAHz wells. Among the challenges related to horizontal wells is formation evaluation using logs that may be responding to multiple reservoir layers.
![c.ronaldo fifa 10 c.ronaldo fifa 10](https://i.ytimg.com/vi/1k5RWm14l2I/hqdefault.jpg)
The benefit of this approach is increased reservoir exposure and, consequently, greater production compared to vertical wells. A significant and increasing proportion of wells are drilled horizontally, or at a high angle, through reservoir sections.