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Investigation of the Spatial Distribution of Methane Sources in the Greater Toronto Area Using Mobile Gas Monitoring Systems

Sébastien Ars, Felix Vogel, Colin Arrowsmith, Sajjan Heerah, Emily Knuckey, Juliette Lavoie, Christopher Lee, Nasrin Mostafavi Pak, Jaden L. Phillips, Debra Wunch

2020Environmental Science & Technology67 citationsDOIOpen Access PDF

Abstract

For methane emission reduction strategies in urban areas to be effective, large emitters must be identified. Recent studies in U.S. cities have highlighted the contribution of methane emissions from natural gas distribution networks and end use. We present a methane emission source identification and quantification method for the Greater Toronto Area (GTA), the largest metropolitan area in Canada, using mobile gas monitoring systems. From May 2018 to August 2019, we collected 77 surveys of methane mixing ratios, covering a distance of about 6400 km, and sampled emission plumes from sources such as closed landfills, natural gas compressor stations, and waterways. Our results indicate that inactive landfills emit less than inventory estimates. Despite this discrepancy, we confirm that the waste sector is the largest methane emitter in the GTA. We also report that the frequency of methane leaks from the local distribution system ranges between 4 and 22 leaks per 100 km of roadway in downtown Toronto, which is comparable to the range observed in U.S. cities, which have invested in modern natural gas distribution infrastructure. Last, we find that engineered waterways, whose emissions are currently not reported in inventories, may be a significant source of methane.

Topics & Concepts

MethaneNatural gasEnvironmental scienceMethane emissionsMetropolitan areaCompressor stationGreenhouse gasEnvironmental engineeringFugitive emissionsHydrology (agriculture)Waste managementGeographyEngineeringGeologyPipeline transportChemistryOceanographyOrganic chemistryArchaeologyGeotechnical engineeringAtmospheric and Environmental Gas DynamicsWind and Air Flow StudiesCoal Properties and Utilization
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