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INTRODUCTION
Geologists and petroleum engineers utilize a 3D borehole imager as a tool to produce a detailed, three-dimensional image of the interior of a borehole or wellbore. The equipment uses a number of imaging techniques to produce a high-resolution image of the rock formations, fractures, and other structures inside the borehole. It is normally lowered into the hole on a cable or wireline.
The 3D borehole imager often combines various imaging techniques to produce a detailed image of the borehole, such as electromagnetic, optical, or acoustic imaging.
The tool’s photographs can be used to locate geological features and structures inside the borehole, including faults, fractures, and bedding planes. Planning drilling operations, maximizing oil and gas output, and evaluating the local geology can all be done using this knowledge.
A qualified geologist or petroleum engineer normally operates the 3D borehole imager and uses the images to assess the borehole’s geology and make drilling or production decisions.
To build a 3D model of the borehole and the nearby rock formations, the tool’s photos are normally recorded and examined with specialized software. For the discovery and exploitation of oil and gas reserves, the 3D borehole imager’s data is a crucial resource.
GLOBAL 3D BOREHOLE IMAGER MARKET SIZE AND FORECAST
The Global 3D Borehole Imager Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
NEW PRODUCT LAUNCH
Halliburton introduces new borehole imaging technology to enhance formation evaluation by producing high-resolution images in oil-based mud.
HOUSTON – The Halliburton Company (NYSE: HAL) has introduced StrataXaminerTM, a new wireline logging service that enables operators to obtain more precise well data in order to more accurately assess production potential.
With greater precision, the instrument identifies bedding, fracture patterns, fault zones, and potential flow obstacles through the delivery of high-resolution photographs of the reservoir structure.
For many years, the industry has struggled to obtain high-resolution photographs in fluid systems made of oil or synthetic materials. Customers can choose any three of StrataXaminer’s ten working frequencies to record simultaneously. With this dynamic range, operators can adjust the image quality in a single pass depending on the formation type, fluid system, and record.
The equipment can function at higher pressures than earlier technologies and comes in three versions to optimize the acquisition quality in boreholes of different sizes. As it records data up and down a well, the 8-pad tool offers the greatest borehole coverage, improving data quality and offering more acquisition options on a single run in the hole.
COMPANY PROFILE
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