A horizontal well targeting a 10-foot porous dolomite zone. Surrounding the target are dense, non-porous limestone and anhydrite.

The Schlumberger (SLB) tool refers to the Next Generation Imager , specifically the

The represents a major engineering leap in openhole wireline formation evaluation . Developed by SLB (formerly Schlumberger) to deliver photorealistic, core-like structural and stratigraphic imaging, the NGI architecture enables precise downhole microresistivity tracking in challenging borehole environments. By utilizing sophisticated impedance measurements and highly articulated sensor pads, this system captures unmatched, high-definition data used to map fractures, define thin beds, and build accurate reservoir models. 🛠️ Technical Specifications and Measurement Physics

Schlumberger Ngi Tool Jun 2026

A horizontal well targeting a 10-foot porous dolomite zone. Surrounding the target are dense, non-porous limestone and anhydrite.

The Schlumberger (SLB) tool refers to the Next Generation Imager , specifically the schlumberger ngi tool

The represents a major engineering leap in openhole wireline formation evaluation . Developed by SLB (formerly Schlumberger) to deliver photorealistic, core-like structural and stratigraphic imaging, the NGI architecture enables precise downhole microresistivity tracking in challenging borehole environments. By utilizing sophisticated impedance measurements and highly articulated sensor pads, this system captures unmatched, high-definition data used to map fractures, define thin beds, and build accurate reservoir models. 🛠️ Technical Specifications and Measurement Physics A horizontal well targeting a 10-foot porous dolomite zone