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High-resolution borehole images are produced by the AFR Azimuthal Focused Resistivity Sensor to help you better comprehend your reservoir’s structural and geological makeup.
Along with an at-bit resistivity measurement, it also offers omnidirectional and azimuthal laterolog-type resistivity measurements.
The Global Azimuthal Focused Resistivity Sensor market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
The Halliburton InSite ADR not only measures in 32 directions, but it also offers 14 depths of examination that go as deep as 18 feet. It is possible to forecast not only what direction but also how far away the nearby formation change is.
To enhance recovery, one it can also steer to the payzone’s highest resistivity layer. It is possible to alter the well trajectory to run parallel to bed limits at a set distance with the help of early warnings of changing lithology and geologic structure.
The distinct strata can be distinguished when crossing faults that are too small to be picked up by seismic surveys by using readings from numerous depths of investigation, allowing correlation to continue across the fault.
High-resolution images of the borehole and vicinity are provided by the second sensor, the azimuthal focus resistivity (AFR). It is effective for picking up distinct rock properties while drilling through thin layers and is made to be used with water-based muds.
The InSite AFR provides the precise determination of the net thickness of oil inside a big column, improving the accuracy of reserves estimations, in thinly laminated formations with sand layers only a few inches thick interbedded with thin shale layers.