FLIR Systems, Inc. has announced that the FLIR GF320 and GF300 optical gas imaging (OGI) cameras have received sensitivity standard validation by UK-based National Physical Laboratory (NPL), making them compliant with the Environmental Protection Agency’s (EPA’s) OOOOa Methane rule for the oil and gas industry.
The EPA OOOOa methane rule references OGI as the best system of emission reduction (BSER) on specific sources at compressor stations and well sites across the United States.
However, the rule also states that any OGI equipment used for compliance purposes must be capable of imaging a gas that is half methane, half propane at a concentration of 10,000 parts per millions (ppm), at a flow rate of less than 60 grams per hour, from a quarter inch diameter orifice.
Being independently certified to be compliant with this requirement, the FLIR GF300 and FLIR GF320 systems represent advanced technology for gas detection activities within the oil and gas industry.
The GF320 and GF300 cameras incorporate the ability to tag image/video data with GPS location information, enabling operators to meet another key EPA regulatory requirement for reporting.
Also, the FLIR GF320 camera is calibrated to measure temperature, allowing the user to ensure optimal thermal contrast between the gas compound and the background scene.
With the recent tightening of methane regulations – both in the US and globally – oil and gas producers need a reliable solution to find fugitive emissions. The NPL’s validation separates the GF320 and GF300 from other optical gas imaging technology as it confirms our cameras comply with the industry standards.
Rickard Lindvall, Vice President and General Manager of FLIR’s Instruments division
To learn more about the GF320 and GF300 please visit www.flir.com/OGI or contact FLIR Systems at [email protected] or +32-3665-5100.
About FLIR Systems Inc.
FLIR Systems, Inc. is a world leader in the design, manufacture, and marketing of sensor systems that enhance perception and awareness. FLIR’s advanced thermal imaging and threat detection systems are used for a wide variety of imaging, thermography, and security applications, including airborne and ground-based surveillance, condition monitoring, research and development, manufacturing process control, search and rescue, drug interdiction, navigation, transportation safety, border and maritime patrol, environmental monitoring, and chemical, biological, radiological, nuclear, and explosives (CBRNE) detection. For more information, go to FLIR’s web site at www.FLIR.com.