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In 2007, the U.S. Supreme Court ruled that carbon dioxide (CO₂) is a pollutant under the federal Clean Air Act.  The ruling allows the U.S. Environmental Protection Agency (EPA) to regulate CO₂ emissions.  Such regulation will entail monitoring a wide variety of pollution sources including automobile exhaust systems, industrial emission sources, and carbon sequestration sites.  With presently available technologies, EPA personnel will need to perform on-site scans of possible pollution locations by tediously sampling emitted gases with point-source gas-intake measurement devices.  Current CO₂ stand-off measurement instruments, such as laser remote sensors, do not provide spatial identification or mapping of the pollution source.  This makes it difficult or impossible for EPA personnel to identify or quantify CO₂ pollution sources and plumes, such as those from a smokestack or vent.  There currently exists no technology that can measure and pinpoint (to within a meter) the location of elevated CO₂ concentrations from a distance.

To address this need, Bridger Photonics, Inc. proposes developing an inexpensive, rugged, and hand-held sensor with high range resolution for on-site CO₂ monitoring and spatial mapping from a distance.  The proposed effort will enable EPA personnel to, for instance, simply aim the sensor toward a distant industrial emission stack to measure the emitted CO₂ concentration, the distance to the source, and the spatial extent of the plume.  The sensor also could be used to spatially scan CO₂ sequestration or industrial sites for leaks and could provide precise 3-dimensional coordinate mapping of the emission source.

The proposed device will be based on an innovative laser source that possesses the ideal characteristics for sensitively probing CO₂ plumes with high spatial resolution.  Phase I objectives are to:  (1) demonstrate laser emission to the ideal wavelength for mid-range CO₂ sensing, (2) demonstrate range-resolved CO₂ measurements, and (3) design and model the sensor to address the targeted market.  The predictive device performance includes:  (1) meter-level spatial resolution, (2) the ability to measure a 1-m CO₂ plume with less than double the atmospheric concentration at a 100-m distance, and (3) the ability to measure typical industrial CO₂ emissions from stand-off distances of at least 500 meters.

These capabilities, along with the compact, rugged design, will provide Bridger Photonics distinct competitive advantages in the CO₂ sensor market.  The recent U.S. Supreme Court ruling combined with an emerging international effort to reduce CO₂ emissions establishes a growing market demand for this type of hand-held CO₂ sensor.  Bridger Photonics estimates a potential $59 million U.S. market for this device, not including predicted carbon sequestration monitoring markets.  The device will integrate seamlessly with Bridger Photonics’ other laser-based sensor, which will uncover illicit methamphetamine labs.

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