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Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation

Sahar H. El Abbadi, Zhenlin Chen, Philippine Burdeau, Jeff Rutherford, Yuanlei Chen, Zhan Zhang, Evan David Sherwin, Adam R. Brandt

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Abstract

Methane is a major contributor to anthropogenic greenhouse gas emissions. Identifying large sources of methane, particularly from the oil and gas sector, will be essential for mitigating climate change. Aircraft-based methane sensing platforms can rapidly detect and quantify methane point-source emissions across large geographic regions, playing an increasingly important role in industrial methane management and greenhouse gas inventory. We independently evaluate the performance of five major methane-sensing aircraft platforms: Carbon Mapper, GHGSat-AV, Kairos Aerospace, MethaneAIR, and Scientific Aviation. Over a 6-week period, we released metered gas for over 700 single-blind measurements across all five platforms to evaluate their ability to detect and quantify emissions that range from 1  kg(CH4)/hr to over 1,500  kg(CH4)/hr. Aircraft consistently quantified releases above 10  kg(CH4)/hr, and GHGSat-AV and Kairos Aerospace detected emissions below 5 kg(CH4)/hr. Fully-blinded quantification estimates for platforms using spectroscopy-based measurements have parity slopes ranging from 0.76 to 1.13, with R2 values of 0.61 to 0.93; the platform using an in situ measurement approach has a parity slope of 0.5 (R2 = 0.93). Results demonstrate aircraft-based methane sensing has matured since previous studies and is ready for an increasingly important role in environmental policy and regulation.

Topics & Concepts

Greenhouse gasMethaneEnvironmental scienceMethane emissionsAtmospheric methaneAviationKairosAerospace engineeringEngineeringChemistryGeologyOceanographyLinguisticsPhilosophyOrganic chemistryAtmospheric and Environmental Gas DynamicsSpectroscopy and Laser ApplicationsAir Quality Monitoring and Forecasting