ADGiLE
Autonomous detection of Gas leaks & Emissions
FLIR ADGiLEâ„¢
Automated Methane Monitoring Solution with Optical Gas Imaging.
This innovative system is designed to enhance situational awareness. ADGiLE stands for Autonomous Detections of Gas Leaks and Emission. In the oil and gas sector, where safety and environmental standards are critical, methane leaks pose significant risks and must be identified and managed immediately. Methane leak monitoring and detection is not just a regulatory requirement—it is vital for operational safety and environmental stewardship. Employing continuous, autonomous optical gas imaging (OGI) in upstream and midstream oil and gas operations, is an efficient method to meet these objectives.
The FLIR ADGiLE system comprises of the uncooled FLIR GF77a Optical Gas Imager that provides continuous, reliable 24/7 monitoring of methane emission detection with analytics and precise alarming capabilities, for real-time, accurate results, reducing false positives and unnecessary inspections. Both fixed and pan/tilt options available to ensure compatibility with your specific monitoring needs.
The system comes with control cabinet (incl. Edge PC) loaded with FLIR Latitude UVMS Interface for managing video data, integrating camera controls, and storing and retrieving video footage. Real-time video visualization of gas plumes with alerts and event recording helps operators quickly understand the nature of the emission, distinguishing between leaks and routine venting. Small and lightweight, the FLIR GF77a is packed with FLIR-patented features, such as High Sensitivity Mode (HSM), for improved gas visualization.Â
The ADGiLE System can accurately distinguish between operational and fugitive emissions and ensures real-time methane leak detection at well pads, gas production facilities and midstream locations. Being RTSP and GigE compliant, it offers flexibility to meet many industrial communication needs.
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Key Features
| Parameter | Specification |
|---|---|
| IR Resolution | 320 × 240 pixels |
| Thermal Sensitivity (NETD) | < 0.025°C (25 mK) @ +30°C |
| Detector / Spectral Range | Uncooled microbolometer / 7.0 µm to 8.5 µm |
| Gas Sensitivity (NECL) |
CH4: < 100 ppm × m (ΔT = 10°C, Distance = 1 m) |
| Image Frequency | 30 Hz |
| Lens options | 25° × 19° |
| Focus | One-shot contrast, Motorized, Manual |
| Temperature Range | -20°C to 500°C |
| Accuracy | ±3°C or ±3% of reading |
| Image Source | Visual / IR / MSX |
| Web interface | Yes |
| Video/Radiometric streaming | RTSP (unicast, multicast, multiple image streaming), GigE (unicast, multicast) |
| Ethernet protocols | TCP, UDP, SNTP, RTSP, RTP, HTTP, HTTPS, ICMP, IGMP, sftp (server), FTP (client), SMTP, DHCP, MDNS (Bonjour), uPnP. |
| RS-232/485 | Available, for Pan & Tilt control |
| Digital I/O | 2 DI, 3 DO (opto-isolated) |
| Power | POE powered / 24 or 48 V DC external power |
| Operating Temperature | –30 to 50°C |
| Encapsulation / Corrosion | IP67 / Salty fog resistance: ISO9227, to 1000 hours |
| Safety / EMC Compliance | IEC 62368-1, EN 55032/55035, FCC, ICES-001 |
| Mounting options | Fixed or pan/tilt |
| Warranty | 2 years on camera, 10 years on detector |