The dynamic realm of offshore drilling and completion continually sees the development of innovative technologies aimed at enhancing safety, efficiency, and cost-effectiveness. This edition highlights three papers showcasing transformative potential within the industry.
The first paper explores the use of along-string measurements and high-speed telemetry to mitigate geohazards and improve risk management in drilling operations. This innovative approach has significantly improved operational efficiency and well placement in offshore environments. By leveraging real-time data and advanced telemetry systems, operators can make informed decisions that enhance safety and optimize drilling operations. Several case studies showcase the successful implementation and potential of this technology to revolutionize the industry.
The second paper introduces a pioneering digital shaker surveillance system using computer-vision technology on a deepwater rig. In an experimental trial, a computer-vision system monitored and measured drilled cuttings in real time. The system used an optical sensor and image-analysis software to quantify and qualify cuttings during drilling operations. Data collected revealed a strong correlation between cuttings load and drilling-parameter perturbations, improving assessments of hole cleaning and wellbore stability. The system aims to boost drilling efficiency, optimize penetration rates, and prevent packoff events by autonomously characterizing drilled cuttings.
The third paper discusses the evolution of riserless mechanical subsea intervention in the deepwater Gulf of Mexico through a 22-well, multiyear campaign. Advancements in deepwater subsea well-intervention technology have enabled operators to perform more-sophisticated mechanical interventions (with wireline and slickline) without the need for a riser, significantly reducing costs and operational complexity. Case studies demonstrate the benefits, challenges, and prospects of riserless well intervention.
Summarized Papers in This October 2025 Issue
SPE 219627 Telemetry Approach Enables Optimal Well Placement Despite Geohazards by Stephen Pink, NOV, et al.
OTC 35585 Digital Shaker Surveillance Uses Computer Vision on a Deepwater Rig by Calvin Holt, DrillDocs, et al.
SPE 224044 Riserless Wireline Subsea Intervention in Deepwater Offers Expanded Potential by Strethen E. Townsend, BP, et al.
Recommended Additional Reading
SPE 220855 Horizontal Openhole Gravel-Pack Challenges and Lessons Learned From More Than 60 Offshore Wells Performed in Peregrino Field by F.C. Colbert, Baker Hughes, et al.
OTC 35995 Integrated Workflow for Designing a Multizonal Water Injector With Intelligent Well-Completion Functionality by Vijay Rachit, ExxonMobil, et al.
SPE 223800 The Automation Advantage: Efficiency Improvements in Offshore Drilling by B. Millward, Halliburton, et al.
Muhammad Sofyan, SPE, is a petroleum engineer with more than 20 years in the oil and gas industry, specializing in well completions, interventions, and well integrity. He serves as the drilling and wells research and development theme leader at TotalEnergies in Houston. Sofyan holds a BS degree in petroleum engineering from the Bandung Institute of Technology in Indonesia and an MBA degree from Heriot-Watt University. Throughout his career at TotalEnergies, he has held significant technical and leadership roles in various locations including Indonesia, Qatar, Argentina, and France.
