Oil and gas IoT connects remote wellheads, pipelines, processing facilities, and offshore platforms to centralized monitoring and control systems — enabling real-time production visibility, leak and anomaly detection, regulatory compliance monitoring, and the predictive maintenance that prevents the costly equipment failures common in harsh operating environments.
Oil and gas operations span some of the most challenging IoT deployment environments: extreme temperatures, remote locations beyond cellular coverage, hazardous area classifications requiring intrinsically safe electronics, and the cybersecurity requirements for critical infrastructure. RLM advises on upstream, midstream, and downstream IoT strategy, connectivity architecture, and the OT security framework that protects critical infrastructure.
A structured advisory process — from use case definition and platform evaluation to deployment architecture and ongoing optimization.
We assess your IoT infrastructure across production operations — wellhead sensor coverage, pipeline monitoring, facility automation, and the data management approach that consolidates production data for operational decision-making.
We design the connectivity architecture for remote operations — evaluating cellular (LTE/5G for areas with coverage), satellite for remote locations, and the mesh radio networks that provide connectivity in areas beyond cellular reach.
We advise on pipeline monitoring and leak detection systems — pressure and flow sensor networks, acoustic leak detection, and the data analytics that distinguish real leak signals from measurement noise in noisy production environments.
We design the integration between IoT field sensors and SCADA/DCS systems and data historians — ensuring IoT data flows into the operational technology infrastructure that operators use for production management.
The dimensions that determine whether an IoT deployment delivers lasting operational value — and the questions RLM helps you answer before any commitment.
Electronic equipment deployed in hazardous areas (Class I, Division 1/2; ATEX Zone 0/1/2) must meet intrinsic safety or explosion-proof certifications. Evaluate equipment certifications against the area classifications of your deployment locations.
Production monitoring that depends on unreliable connectivity creates operational gaps. Evaluate connectivity redundancy for critical monitoring points — the cost of a missed leak detection event or wellhead shutdown far exceeds the cost of redundant connectivity.
OT systems in oil and gas are classified as critical infrastructure subject to TSA Pipeline Security Guidelines and other regulatory requirements. Evaluate OT cybersecurity architecture against regulatory requirements before connecting production systems to internet-connected IoT platforms.
Multinational oil and gas operations generate production data subject to data sovereignty requirements in each operating country. Evaluate data residency requirements and the architecture that complies with local regulations.
Regulatory requirements for emissions monitoring (EPA 40 CFR), flaring measurement, and spill detection create mandatory IoT deployment requirements. Evaluate compliance monitoring requirements alongside operational IoT investments to consolidate infrastructure where possible.
"RLM helped us select and deploy an IoT platform across 28 facilities in under six months. Their vendor-neutral approach saved us from a costly mistake with our initial shortlist."
"We needed smart metering and energy management across our campus portfolio. RLM mapped the vendor landscape, ran the evaluation, and we're now hitting our ESG targets ahead of schedule."
Talk to an RLM advisor who specializes in enterprise IoT deployments. Independent guidance from platform selection through operational deployment.