SLB partners with ANYbotics to advance autonomous robotic operations in the oil & gas sector

SLB recently entered into a long-term collaboration agreement with ANYbotics, a leader in autonomous mobile robotics, to advance autonomous robotic operations in the oil and gas sector.
ANYbotics has developed the world’s first quadruped robot, designed for safe operation in hazardous area of challenging industrial environments, enabling workers to be evacuated from hazardous areas. provides actionable insights anywhere and anytime, patrolling complex and harsh environments as an autonomous data collection and analysis vehicle.
The integration of robotics innovation with SLB’s OptiSite facility and equipment performance solutions will enable oil and gas companies to optimise operations and maintenance activities for new developments as well as existing production assets. Deploying autonomous robotic missions will improve data accuracy and predictive analytics, increase equipment and operational uptime, reduce operational safety risks, and enrich digital twins through real-time sensorial data and spatial updates. The predictive analytics delivered will enhance operational efficiency, safety and emissions reduction.
GlobalData also notes the increase in collaboration between oil and gas companies and technology vendors, enabling the diversification of robotic use cases with the integration of AI, IoT, cloud, and edge computing. These developments are anticipated to drive future growth in robotics within the oil and gas sector.
High-end equipment represents the main battlefield in oil and gas exploration and development competition, with digitally empowered high-end equipment being the future industry mainstream.
Our company is continuously committed to developing more efficient, compact, and cost-effective separation equipment while also focusing on environmentally friendly innovations. For example, our high-efficiency cyclone desander utilize advanced ceramic wear-resistant （or called, highly anti-erosion） materials, achieving a sand removal efficiency of up to 0.5 microns at 98% for gas treatment. This allows produced gas to be injected into the reservoirs for low permeability oilfield that utilizes miscible gas flooding and solves the problem of low permeability reservoirs development and significantly enhances oil recovery. Or, it can treat the produced water by removing particles of 2 microns above at 98% for directly re-injected into reservoirs, reducing marine environmental impact while enhancing oil-field productivity with water-flooding technology.