Patent ID: 7855367

Claim:
A method of detecting gas leaks, comprising: providing a gas filter correlation radiometer comprising a window in a housing, optics defining a first optical path and a second optical path between the window and a detector section mounted in the housing, a beam splitter mounted in the housing as part of the optics for directing radiation entering the window from the target area to divide the radiation between the first optical path and the second optical path, the first optical path having a first ethane path length and the second optical path having a second ethane path length, the first ethane path length being different from the second ethane path length, and electronics for processing signals produced by the detector section as a result of radiation being directed by the optics onto the detector section, the detector section comprising a first detector on the first optical path and a second detector on the second optical path, and corresponding pixels on the first detector and second detector having collocated fields of view corresponding to a field of view of the gas filter correlation radiometer; traversing a target area with the gas filter correlation radiometer having the gas filter correlation radiometer field of view oriented towards the target area, the gas filter correlation radiometer being tuned to detect ethane; sampling the corresponding pixels of the first detector and the second detector simultaneously; and identifying a gas leak upon the gas filter correlation radiometer detecting the presence of ethane by detecting variations in solar radiation reflected from the target area and received by the respective first detector and second detector.