Market · Technology · Supply Chain
Electrical Asset
Monitoring for
Oil & Gas Power
On upstream platforms, in LNG trains and along pipelines, large motors, drives, generators and switchgear drive the process — and a single electrical failure can shut in production worth millions a day, in hazardous, often remote, locations. As operators push uptime, efficiency and electrification while managing safety, electrical asset monitoring has become core to operational integrity. This briefing maps the market, the sensing and analytics stack, the leading vendors, an end-to-end reference architecture, and the supply chain behind it.
The Market
Oil-and-gas electrical monitoring is driven by the cost of downtime, the hazards of the environment, and a drive for efficiency and electrification. It rides on the broader industrial condition-monitoring, APM and process-automation markets rather than a standalone budget.
Sizing the opportunity
Framed through its parent markets:
- Industrial condition monitoring & APM — growing roughly 7–9% CAGR, with oil and gas a major, high-value vertical given asset criticality.
- Process automation & DCS/SCADA — the large installed control base into which electrical monitoring increasingly integrates.
- Rotating-equipment monitoring — vibration and electrical analytics on the large motors, compressors and turbines that drive the process — a long-established, high-value segment.
- Electrification & energy management — a fast-growing adjacency as operators electrify drives and reduce emissions, adding power monitoring and optimization.
The practical read: spend follows production assurance and integrity — preventing the trips and failures that defer production, doing so safely in hazardous areas, and squeezing energy efficiency from a power-hungry process.
What is pulling the market forward — and what is holding it back
Demand Drivers
- Production uptime
- An unplanned electrical trip can shut in production worth millions a day; predictive monitoring of critical rotating and power equipment directly protects revenue.
- Hazardous, remote operations
- Ex-rated, offshore and remote sites make manual inspection costly and risky, pushing remote and online condition monitoring.
- Aging facilities
- Long-lived platforms and plants run aging electrical assets that need condition awareness to operate safely and defer capital.
- Electrification & emissions
- Electrifying drives and reducing flaring and emissions adds power monitoring, energy management and a sustainability dimension.
- Safety & integrity
- Electrical reliability is part of operational and process safety; monitoring supports integrity-management obligations.
- Remote & de-manned operations
- Drives to remote-operate and de-man facilities depend on instrumentation and predictive analytics.
Regional dynamics
Large upstream and gas processing with significant investment in reliability, integrity and increasingly digital and electrified operations.
Shale operations, pipelines and a fast-growing LNG export build-out, with strong automation-vendor presence and a focus on efficiency.
Mature, aging offshore assets where remote monitoring, integrity and electrification (including platform electrification from shore) are priorities.
Growing upstream, LNG and petrochemical capacity across the region and beyond, with new facilities specified digital from the start.
Assets & Key Technologies
Oil-and-gas electrical monitoring centers on the large rotating machines and power equipment that drive the process, blending vibration and electrical-signature analysis with switchgear, transformer and drive monitoring — all under hazardous-area and process-safety constraints.
The assets under watch
Monitoring modalities
The emphasis is on the large rotating machines and the power chain that feeds them — using vibration and electrical-signature analysis for inaccessible or hazardous assets, plus switchgear and transformer condition techniques.
- Vibration analysis — the workhorse for compressors, pumps and large motors, detecting bearing, imbalance and misalignment defects on critical rotating equipment.
- Motor current / electrical signature analysis — inferring motor and driven-equipment faults from current and voltage, ideal for inaccessible and hazardous-area machines (and subsea ESPs).
- Partial discharge monitoring — on HV/MV switchgear, motors and cables, catching insulation breakdown before failure.
- Thermography — fixed and route-based IR on switchgear, MCCs and connections for hotspots.
- Power-quality & energy monitoring — harmonics, imbalance and energy across the facility, doubling as an efficiency tool for electrified operations.
- Transformer monitoring — temperature and DGA on larger power transformers.
- Drive (VSD) monitoring — DC-bus, semiconductor and cooling health on large variable-speed drives.
- Turbine-generator monitoring — combined vibration and electrical monitoring of on-site generation and mechanical-drive turbines.
- Insulation & winding monitoring — winding temperature and insulation trending on critical motors and generators.
- Acoustic / ultrasonic — detecting electrical arcing and mechanical issues, complementing thermography.
- Process & integrity integration — correlating electrical condition with process telemetry for true performance and integrity management.
The enabling stack
- Online sensors & transmitters — Ex-rated vibration, current, PD and temperature devices for hazardous areas.
- DCS / SCADA — the process-control backbone into which electrical monitoring integrates.
- Edge & gateways — aggregating and converting electrical and condition data, often in classified areas.
- APM platforms & historians — asset performance management and time-series history (e.g. the PI System) across the facility.
- AI/ML predictive analytics — failure prediction and prescriptive maintenance on critical rotating and power assets.
- Digital twins — of compressors, drive trains and power systems for diagnostics and optimization.
- Remote operations centers — centralized monitoring of remote and offshore facilities.
- EAM/CMMS integration — turning condition into integrity-managed work and spares.
Protocols & standards that tie it together
Leading Solutions
The field is led by the process-automation and electrical majors (who supply DCS, drives, switchgear and APM), the rotating-equipment and turbomachinery OEMs with monitoring, the condition-monitoring specialists, and the electrical-signature and subsea players. Selected leaders and their relevant offerings:
| Company | Relevant platform / products |
|---|---|
| Emerson | Plantweb digital ecosystem, AMS machinery health and wireless vibration, Ovation/DeltaV control, and AspenTech APM/Mtell predictive analytics — broad coverage of process and machinery monitoring. |
| Schneider Electric | EcoStruxure for process and power, Power Monitoring Expert, Modicon control, Altivar drives and AVEVA (PI System, APM) software. |
| ABB | ABB Ability monitoring, large motors and drives, switchgear (Ekip), and condition monitoring for rotating and electrical assets across upstream and downstream. |
| Siemens | SIMATIC/SCADA, large drives and motors, switchgear, Sidrive IQ and Senseye predictive maintenance, plus power monitoring. |
| Honeywell | Experion control and Honeywell Forge APM and energy management across process facilities. |
| Baker Hughes (Bently Nevada) | Bently Nevada machinery protection and condition monitoring (System 1) for turbomachinery and critical rotating equipment. |
| Yokogawa | Process control plus asset and machinery monitoring and analytics. |
| Rockwell Automation | Allen-Bradley drives and intelligent MCCs, FactoryTalk analytics and Fiix CMMS for process electrical assets. |
| SKF | Bearings and condition monitoring (Enlight, IMx, Observer) for rotating equipment. |
| Samotics | Sensorless electrical-signature analysis (SAM4) for motors and inaccessible or hazardous-area assets. |
| GE Vernova | Turbine and generator monitoring and APM for on-site power and mechanical drive. |
| Qualitrol · Doble · OMICRON | Transformer and switchgear monitoring and diagnostics for facility power systems. |
| AspenTech | APM and Mtell predictive/prescriptive analytics (with Emerson) across process and rotating assets. |
| Sensia (SLB / Rockwell) | Oilfield automation and monitoring, including production and electrical assets. |
| SLB · Baker Hughes · Halliburton | ESP and artificial-lift systems with electrical monitoring for production wells. |
| Dragos · Claroty · Nozomi | OT cybersecurity for hazardous, connected facilities (a procurement prerequisite). |
Reference Use Case
Condition monitoring of a critical compressor train and its switchgear on an offshore platform or in an LNG facility — a representative deployment that exercises vibration and electrical-signature analysis, switchgear PD and drive monitoring under DCS, traced to a remote operations center alongside the architecture diagram below.
A motor fault caught before production was shut in
A gas-compression train is driven by a large HV motor on a variable-speed drive, fed from HV/MV switchgear and a power transformer, with on-site turbine-generation behind it — all in a hazardous, Ex-rated area on a remote facility. The risk is stark: a motor, drive or switchgear failure can trip the train and shut in production worth millions a day, with repairs slow and costly to mobilize offshore.
Monitoring watches the train and its power chain. Vibration sensors trend a rising bearing-defect frequency on the motor; electrical-signature analysis at the switchgear detects a growing current anomaly consistent with early winding stress ; switchgear partial-discharge and drive temperatures stay watched. No single signal trips an alarm; fused by the APM into a machinery-health index, the trend gives weeks of warning.
The platform raises a prioritized alert with a remaining-useful-life estimate, and operations schedule the repair into a planned shutdown, carrying the duty on a spare where available — converting an unplanned production shut-in into managed, integrity-compliant work. Power and energy analytics track efficiency as the facility electrifies. A multi-million-dollar deferral is avoided, and the critical train keeps running, monitored remotely from shore.
From signal to outcome
Analytics applied: vibration spectral and bearing-defect tracking; motor current/electrical-signature analysis; switchgear partial-discharge and thermal monitoring; drive and transformer condition analytics; power-quality and energy analysis; and ML fusing these into machinery-health indices with remaining-useful-life. Actions generated: a prioritized alert, a repair planned into a shutdown with the duty carried on a spare, integrity-managed (management-of-change) work, and energy/emissions reporting.
Outcome figures are illustrative industry-typical ranges, not guarantees — actual results depend on asset criticality, configuration, loading, and how well alerts feed real decisions.
Company Landscape
A structured map across oil & gas electrical systems — automation and electrical majors, turbomachinery and rotating-equipment monitoring, condition-monitoring and electrical-signature specialists, and production/subsea players. Overlaps are common.
| Category | Representative companies |
|---|---|
| Auto Process automation & electrical majors | Emerson · Schneider Electric · ABB · Siemens · Honeywell · Yokogawa · Rockwell Automation |
| Rot Rotating-equipment & turbomachinery CM | Baker Hughes (Bently Nevada) · SKF · Emerson (AMS) · Brüel & Kjær / HBK · Acoem |
| ESA Electrical-signature & motor analytics | Samotics (SAM4) · Emerson · ABB · Qualitrol |
| Pwr Transformer / switchgear monitoring | Qualitrol · Doble Engineering · OMICRON · Megger · Dynamic Ratings |
| Drive Drives & large motors | ABB · Siemens · Rockwell · WEG · TMEIC |
| APM APM & analytics software | AspenTech (Emerson) · AVEVA (Schneider) · GE Vernova · Honeywell Forge · Bently Nevada (System 1) |
| Prod Production / ESP / subsea | SLB (Sensia) · Baker Hughes · Halliburton · TechnipFMC |
| Hist Historians & data | AVEVA PI System · AspenTech · Cognite (industrial DataOps) |
| Cyber OT cybersecurity | Dragos · Claroty · Nozomi Networks · Honeywell |
| EPC Integrators & EPC / operators | Worley · Wood · Bechtel · KBR · operators (Shell · ExxonMobil · ADNOC · Aramco) |
Supply Chain
The value chain runs from electrical steel, copper and power semiconductors through motors, drives, switchgear and turbomachinery, the APM software layer, EPC and service providers, and the operators — with hazardous-area requirements, long-lead equipment and OT security as defining features.
Key supply-chain considerations & risks
Hazardous-area certification
Ex/ATEX and IEC 60079 requirements constrain which sensors and devices can be deployed and lengthen qualification.
Long-lead equipment
Large motors, drives, switchgear and transformers carry long lead times, making monitoring and life extension strategically important.
Power-semiconductor & component supply
Large drives and electronics depend on constrained semiconductors on long timelines.
OT cybersecurity
Critical, increasingly connected and frequently targeted facilities make OT security a procurement prerequisite.
Capital-cycle volatility
Commodity-price-driven capital cycles can stall or accelerate investment unpredictably.
Remote logistics & skills
Offshore and remote interventions depend on scarce logistics and specialist skills — the constraint monitoring exists to optimize.