SLB

The company’s new Retina imaging system creates high-resolution borehole images at the drill bit.

The plant at Heidelberg Materials’ cement facility in Brevik, Norway, has captured its first 1,000 metric tons of carbon dioxide.

SLB is introducing a new electric well-control system to replace larger conventional, fluid‑controlled hydraulic equipment.

This paper presents a continuous passive magnetic ranging technique that can provide real-time distance and direction to the offset well while drilling without interrupting drilling operations.

The paper showcases the digital journey of a brownfield where digital solutions are enhancing recoverable volume, production, and process efficiency while minimizing losses and maximizing the return of investment.

The authors of this paper describe reservoir-fluid-geodynamics processes that explain the reasons behind varying oil compositions and properties within and across different reservoir compartments.

This paper presents a lost-circulation model used during design and job-evaluation phases to accurately predict top of cement and equivalent circulating densities.

In March, 27 young professionals representing 15 SPE sections and 12 countries convened in Paris for the first edition of SPE Beyond the Borders 2025. The event served as a unique platform for cross-cultural dialogue and forward-looking discussions about the role of YPs in the energy transition.

SLB will use artificial intelligence-based software to help ensure the delivery of 18 ultradeepwater wells.

New case studies highlight how artificial intelligence, advanced hardware, and innovative business models are enabling success in drilling automation.