Introduction
The SENSIT® EMQ.UHS is an advanced vehicle-mounted platform engineered for methane emissions monitoring, leak detection, and emissions quantification. Built for utility operators, environmental monitoring programs, and pipeline survey applications, the system combines ultra-high-sensitivity gas detection technology with powerful mapping and analytics tools to provide actionable field data.
Designed to identify, locate, and quantify emissions in real time, the EMQ.UHS measures methane at ppb levels while also offering selective ethane measurement capabilities. Integrated GPS positioning, wind speed and direction monitoring, temperature measurement, and GIS 360 mapping provide the data needed to accurately assess emission sources and their potential impact.
By combining high-performance sensing technology with advanced software and real-time visualization tools, the EMQ.UHS helps operators improve survey efficiency, streamline emissions investigations, and support regulatory compliance programs.
Standard Features
The SENSIT® VMD METRO includes a wide range of standard features designed to support accurate methane measurement and dependable operation:
- Ultra-high-sensitivity methane detection
- Methane measurement at ppb concentrations
- Selective methane & ethane analysis
- Real-time emissions detection and tracking
Applications & Benefits
The EMQ.UHS detects extremely low methane concentrations for early and reliable emission identification while utilizing methane and ethane measurements to improve source characterization. Its integrated platform combines detection, localization, and quantification capabilities with real-time GIS 360 visualization, allowing operators to view and analyze survey results as they are collected. GPS positioning and environmental data, including wind and weather conditions, provide additional context for accurate emission analysis. Together, these capabilities improve survey efficiency, support data-driven maintenance strategies, and help organizations achieve emissions reduction and regulatory compliance objectives. Based on the brochure information provided in the uploaded images.





