Energy management without real-time visibility leads to waste, inefficiency, and unexpected costs
Without sub-metering, you can't see where energy is being wasted. Leaks, inefficient equipment, and idle machinery drain budgets.
Monthly utility invoices reveal problems months too late. No opportunity to respond before damage compounds.
Aging or misconfigured equipment consumes far more energy than necessary. Manual inspections miss gradual performance degradation.
Without real-time consumption data, you can't optimize demand, shift loads, or negotiate better utility rates.
Multi-utility visibility for complete energy management
Real-time power consumption by facility section or equipment
System pressure and flow rates to identify leaks and inefficiencies
Steam consumption, pressure, and temperature across distribution
Water consumption for cooling, process, and sanitation applications
Gas consumption for heating, process, or generator applications
Real-time cost allocation and trend analysis by utility type
Four-step process from installation to actionable insights
Install pulse counters, voltage transducers, and flow meters on primary and sub-meters across your facility.
Sensors transmit consumption data to edge gateways every 60 seconds. All data remains on-site.
Local analytics identify anomalies, peak usage periods, and waste. Compare against baseline and targets.
Receive alerts on abnormal consumption. Adjust operations, schedule maintenance, and measure improvements.
Industrial-grade hardware and local software integration
Pulse counters, voltage transducers, flow meters, pressure sensors
Local data collection and real-time analytics processing
Hardwired or industrial wireless (4G/5G) connectivity
On-site processing, no cloud dependency for core functionality
Modbus, MQTT, REST API for third-party system integration
Email, SMS, webhook notifications on threshold breaches
Complete hardware-first architecture. Your data stays on-site. No SaaS dependency.
Typical timeline from assessment to full operation
On-site evaluation of utility infrastructure, meter locations, and data requirements. Hardware specification and sensor placement planning.
Sensor installation on primary and sub-meters. Gateway deployment. Network configuration. Integration with existing systems.
Analytics rules setup. Dashboard configuration. Alert thresholds. Data validation. Staff training on platform operation.
Full system operation. Baseline establishment. Continuous monitoring for opportunities. Quarterly optimization reviews.
Measurable ROI through visibility and optimization
Average reduction in utility spending through waste elimination and optimization across all utilities.
Reduction in manual meter reading, reporting, and energy management administration per year.
Continuous monitoring reliability. Redundant hardware ensures no data loss during normal operations.
Typical return on investment timeline based on utility cost reduction and operational efficiency gains.
Which industries benefit most from utilities and energy monitoring
Track energy by line or machine. Optimize production schedules.
Monitor process steam, cooling, and water consumption. Compliance documentation.
Multi-building energy management. Tenant sub-metering and billing.
Critical facility monitoring. Medical gas tracking. Utility cost allocation.
Power distribution monitoring. Cooling efficiency. Cost per compute unit.
Demand response programs. Peak load management. Sustainability reporting.