Support Center

Gas Detection Cameras

All Products (24) Grid view Grid view List View List View

FLIR G-Series

Optical Gas Imaging (OGI) Cameras for Hydrocarbons

The FLIR Gx320, G620, and Gx620 are innovative Optical Gas Imaging (OGI) cameras designed to detect hydrocarbons, methane (CH₄), and other Volatile Organic Compound (VOC) emissions from multiple stages of the oil and gas supply chain, as well as other industrial markets. With up to 640 × 480 (307,200 pixels) thermal resolution, FLIR G-Series cameras have innovative gas quantification analytics that measure leak type and severity inside the camera, eliminating the need for a secondary device. While all models are OOOOa certified, the FLIR Gx320 and Gx620 are ATEX compliant, making these camera models ideal for detecting gas emissions in complex systems including refineries, petrochemical facilities, natural gas well pads, compression stations, and power generation plants.

FLIR G306

Optical Gas Imaging (OGI) Camera for Sulfur Hexafluoride (SF₆)

The FLIR G306 is an innovative Optical Gas Imaging (OGI) camera used to visualize sulfur hexafluoride (SF₆), ammonia (NH), ethylene (C₂H₄), and other industrial gas leaks in various environments. SF₆ is a potent greenhouse gas with a global warming potential that’s more than 23,000 times greater than C0₂ over a 100-year period. SF₆ is commonly used within the electric power industry as an insulator and quenching medium for gas-insulated substations and circuit breakers. With the portable, non-contact G306, you can safely and efficiently scan substations for dangerous and environmentally harmful gas leaks without interfering with electric utility delivery or shutting down industrial operations.

FLIR QL320

Quantitative Optical Gas Imaging System for GF620/GFx320/GF320

The QL320 is a quantitative optical gas imaging (QOGI) system that allows surveyors to measure the leak rates for methane and other hydrocarbons. This eliminates the need for secondary sampling with a toxic vapor analyzer or similar tool. In addition, the QL320 does not require close contact with the gas in order to measure emission rates, making it a safer solution for quantifying difficult-to-measure gas leaks.

QL320

Quantitative Optical Gas Imaging System for GF620/GFx320/GF320

The QL320 by Providence Photonics is a quantitative optical gas imaging (QOGI) system that allows surveyors to measure the leak rates for methane and other hydrocarbons. This eliminates the need for secondary sampling with a toxic vapor analyzer or similar tool. Plus, the QL320 does not require close contact with the gas in order to measure emission rates, making it a safer solution for quantifying gas leaks.

FLIR G609

High Resolution Furnace and Boiler Inspection Camera

The FLIR G609 is designed for high temperature industrial furnace applications. These infrared cameras are ideal for monitoring all types of furnaces, heaters, and boilers, particularly in the chemical, petrochemical, and utility industries. Engineered to see through flames, the G609 comes with a detachable heat shield and a customized furnace inspection lens. Together, these features enhance operator safety by reflecting heat away and providing a clearer view of assets, ensuring optimal protection and visibility during operation.

FLIR GF77

Gas Find IR

The FLIR GF77 is a groundbreaking uncooled optical gas imaging camera with interchangeable lens options that detect methane, sulfur hexafluoride (SF6), ethylene, ammonia, and other gas emissions. Capable of both gas detection and radiometric temperature measurement for thermal inspections, the GF77 is ideal for electric power utilities, oil and natural gas operations, chemical/manufacturing facilities, the food and agriculture industry, and first responders. This affordable solution offers the benefit of built-in thermographic calibrations and the flexibility to detect a wide range of gases by simply changing lenses. The purchase of a GF77 camera includes a 3-month subscription to FLIR Thermal Studio Pro and FLIR Route Creator.

FLIR G343

Optical Gas Imaging (OGI) Camera for Carbon Dioxide (CO₂)

The FLIR G343 is an innovative Optical Gas Imaging (OGI) camera used to visualize possible carbon dioxide (CO₂) gas leaks in complex systems including enhanced oil recovery, carbon capture systems, and hydrogen-cooled power generators. Whether or not CO₂ is a byproduct of a production process or used as a trace gas, the portable, non-contact G343 is ideal for detecting CO₂ gas leaks without interfering or shutting down large-scale manufacturing operations.

FLIR G346

Optical Gas Imaging (OGI) Camera for Carbon Monoxide (CO)

The FLIR G346 is an innovative Optical Gas Imaging (OGI) camera used to detect carbon monoxide (CO), nitrous oxide (N₂O) and other dangerous and environmentally harmful gases in steel plants and industrial manufacturing facilities. CO emissions can be a significant threat to primary steel manufacturing operations. Even the slightest leak in a vent stack or pipe can have a devastating effect. With the portable, non-contact FLIR G346, inspectors can scan large areas at safe distances without interfering or shutting down production and manufacturing operations.

FLIR G304

Optical Gas Imaging Camera for Hydrofluorocarbons

The FLIR G304 is an innovative Optical Gas Imaging (OGI) camera used to detect possible hydrofluorocarbon, refrigerant, and other industrial gases in production facilities and chemical plants. Refrigerant gases are potentially toxic, environmentally harmful, and they are heavily regulated. With the portable, non-contact G304, you can safely and efficiently scan large areas without interfering, shutting down, or disrupting large-scale storage and refrigeration operations.

FLIR GFx320

OGI Camera for Hazardous Locations

The FLIR GFx320 represents ground-breaking technology for visualizing fugitive hydrocarbon leaks at natural gas well sites, off-shore platforms, liquid natural gas terminals, and more. Its certifications for use in hazardous locations allow surveyors to work confidently while maintaining safety. FLIR designed the GFx320 with the user in mind, offering ergonomic features such as the articulating LCD screen to help you avoid fatigue during all-day surveys.

FLIR GF320

Infrared Camera for Methane and VOC Detection

The FLIR GF320 detects hydrocarbon and volatile organic compound (VOC) emissions from natural gas production and use. With this optical gas imaging camera, inspectors can check thousands of components and see potential gas leaks in real-time. The GF320 is lightweight, offers both a viewfinder and LCD monitor, and has direct access to controls. Embedded GPS data helps in identifying the precise location of faults and leaks, for faster repairs.

FLIR GF306

SF6 Optical Gas Imaging Camera

The FLIR GF306 optical gas imaging camera visualizes sulfur hexafluoride (SF6) and other gas emissions without the need to shut down operations. SF6 is used in the electric power industry as an insulator and quenching medium for gas-insulated substations and circuit breakers. The portable, non-contact GF306 allows you to quickly scan substations for leaks while maintaining a safe distance from high-voltage equipment. By catching leaks early, the GF306 reduces lost revenue to breakdowns and repairs.

FLIR GF620

Optical Gas Imaging Camera

The FLIR GF620 is the first high-resolution, handheld camera from FLIR to detect methane and other volatile organic compound (VOC) emissions. With its ground-breaking 640 x 480 resolution IR detector, inspectors can check thousands of components and safely scan for gases from greater distances. It's also the first FLIR OGI camera to offer Quantification mode (Q-Mode) for streamlined set-up of the optional QL320 gas quantification system.

FLIR GF77a

Fixed Gas Find IR Camera

The FLIR GF77a is the first uncooled autonomous leak detection camera from FLIR designed specifically to visualize methane gas. This affordable, fixed-camera solution provides upstream and midstream gas processors, producers, or operators the features they need to continuously monitor for potentially dangerous, invisible methane leaks. Small and lightweight, the FLIR GF77a is packed with FLIR-patented features, such as High Sensitivity Mode (HSM), for improved gas visualization. The GF77a can help oil and gas companies maintain valuable capital equipment, avoid product loss, meet emissions reduction metrics, and ensure safer work practices. The GF77a also comes in a GF77f variant that includes environmental housing for harsh environments.

FLIR G300 a Series

Optical Gas Imaging Camera For Gas Leak Detection

The FLIR G300 a optical gas imaging (OGI) camera visualizes gas, so you can monitor installations in remote or hazardous areas for gas leaks. Through continuous monitoring, you can catch dangerous, costly hydrocarbon or volatile organic compound (VOC) leaks and take immediate action. OGI cameras are widely used in industrial settings, such as natural gas processing plants and offshore platforms. It can be easily integrated in housings with application-specific requirements.

FLIR GF343

Optical Gas Imaging Camera

The FLIR GF343 is an optical gas imaging camera that lets you see carbon dioxide leaks quickly, easily, and from a safe distance. Whether CO2 is a byproduct of a production process, a trace gas used to detect hydrogen leaks from power generators, or part of an enhanced oil recovery program, fast and accurate detection of CO2 is key to keeping your operation running safely, efficiently, and profitably.

FLIR GF346

Infrared Camera for CO Detection and Electrical Inspections

The FLIR GF346 optical gas imaging camera detects carbon monoxide (CO) and 17 additional gases without the need to interrupt your plant's production process. CO emissions can be a significant threat to primary steel manufacturing operations; even the slightest leak in a vent stack or pipe can have a devastating effect. With the FLIR GF346, inspectors can scan large areas from a safe distance, pinpointing leaks in real-time, reducing repair down-time, and providing repair verification.

FLIR GF304

Refrigerant Leak Detection Camera

The FLIR GF304 detects refrigerant gas leaks without interrupting or shutting down operations. Refrigerant gases are highly toxic, environmentally harmful, and heavily regulated. By detecting refrigerant gas leaks early, companies can avoid the cost of replenishment and limit environmental impact. The GF304 allows inspectors to visualize these gases, discover hidden leaks, and confirm repairs once their complete.

FLIR GF300

Infrared Camera for Methane and VOC Detection

The FLIR GF300 detects methane, other hydrocarbon, and volatile organic compounds resulting from the production, transportation, and use of oil and natural gas. This camera can scan large areas and visualize potential gas leaks in real-time, so you can check thousands of components over the course of one survey. Designed with the user in mind, the GF300 is lightweight, offers both a viewfinder and LCD monitor, and has direct access to controls.

FLIR GF309

Furnace and Electrical Inspection Camera

The FLIR GF309 is designed for high temperature industrial furnace applications. These infrared cameras are ideal for monitoring all types of furnaces, heaters, and boilers, particularly in the chemical, petrochemical, and utility industries. Custom-built to see through flames, the FLIR GF309 also features a detachable heat shield designed to reflect heat away from the camera and camera operator, providing increased protection.

FLIR A6604

Continuous Gas Leak Detection Camera

Optical gas imaging cameras from FLIR can visualize and pinpoint gas leaks. An optical gas imaging camera makes it easy to continuously scan installations in remote areas or in zones that are difficult to access. Continuous monitoring allows you to instantly see when a dangerous or costly gas leak appears so that immediate action can be taken. Optical gas imaging (OGI) cameras are widely used in industrial settings such as oil refineries, natural gas processing plants, offshore platforms, chemical/ petrochemical industries, and biogas and power generation plants. OGI cameras such as the FLIR A6604 detect harmful greenhouse gases that can seriously harm the environment .

FLIR ADGiLE

Automated Methane Monitoring Solution with Optical Gas Imaging

The FLIR ADGiLE™ system is an advanced methane detection solution designed to provide continuous and autonomous monitoring of gas leaks. Integrating over a decade of FLIR’s advanced Optical Gas Imaging (OGI) technology, ADGiLE enables operators to quickly identify and address methane emissions. This system significantly reduces the need for manual inspections, offering real-time alerts and visual insights that help users act swiftly to prevent hazards and maintain operational efficiency.

FLIR G300 pt Series

Multi-Sensor Optical Gas Imaging Camera for Gas Leak Detection

The FLIR G300 pt is an optical gas imaging (OGI) camera that allows you to continuously monitor remote or hazardous installations for hydrocarbon and VOC gas leaks. OGI cameras visualize gases, so you can easily pinpoint leaks and begin immediate repairs. The G300 pt camera is in an IP66-rated pan-tilt housing that's safe for use in industrial settings such as offshore platforms, petrochemical plants, and power generation plants.

FLIR G620a

Fixed-Mount Hydrocarbon/VOC Optical Gas Imaging (OGI) Camera

Find gas leaks while meeting governmental and environmental emission goals with the FLIR G620a: a long-lived, cooled OGI camera solution for continuous monitoring at upstream and midstream gas production and processing facilities. The G620a is spectrally filtered to see methane (CH₄), hydrocarbons, and Volatile Organic Compounds (VOCs) with a performance OGI detector that meets sensitivity requirements set forth in U.S. EPA OOOOa and Appendix K. Small and lightweight, the G620a installs quickly and relies on a simplified web interface. Never miss a moment of monitoring thanks to the robust linear cooler which supports 27,000 hours of non-stop operation. The FLIR G620a can help oil and gas companies maintain valuable capital equipment, avoid product loss, meet emissions reduction metrics, and ensure safer work practices.