TY - JOUR
T1 - Ground-Based Mobile Measurements to Track Urban Methane Emissions from Natural Gas in 12 Cities across Eight Countries
AU - Vogel, F.
AU - Ars, S.
AU - Wunch, D.
AU - Lavoie, J.
AU - Gillespie, L.
AU - Maazallahi, H.
AU - Röckmann, T.
AU - Nęcki, J.
AU - Bartyzel, J.
AU - Jagoda, P.
AU - Lowry, D.
AU - France, J.
AU - Fernandez, J.
AU - Bakkaloglu, S.
AU - Fisher, R.
AU - Lanoiselle, M.
AU - Chen, H.
AU - Oudshoorn, M.
AU - Yver-Kwok, C.
AU - Defratyka, S.
AU - Morgui, J. A.
AU - Estruch, C.
AU - Curcoll, R.
AU - Grossi, C.
AU - Chen, J.
AU - Dietrich, F.
AU - Forstmaier, A.
AU - Denier van der Gon, H. A.C.
AU - Dellaert, S. N.C.
AU - Salo, J.
AU - Corbu, M.
AU - Iancu, S. S.
AU - Tudor, A. S.
AU - Scarlat, A. I.
AU - Calcan, A.
N1 - Publisher Copyright:
Crown © 2024. Published by American Chemical Society.
PY - 2024/2/6
Y1 - 2024/2/6
N2 - To mitigate methane emission from urban natural gas distribution systems, it is crucial to understand local leak rates and occurrence rates. To explore urban methane emissions in cities outside the U.S., where significant emissions were found previously, mobile measurements were performed in 12 cities across eight countries. The surveyed cities range from medium size, like Groningen, NL, to large size, like Toronto, CA, and London, UK. Furthermore, this survey spanned across European regions from Barcelona, ES, to Bucharest, RO. The joint analysis of all data allows us to focus on general emission behavior for cities with different infrastructure and environmental conditions. We find that all cities have a spectrum of small, medium, and large methane sources in their domain. The emission rates found follow a heavy-tailed distribution, and the top 10% of emitters account for 60-80% of total emissions, which implies that strategic repair planning could help reduce emissions quickly. Furthermore, we compare our findings with inventory estimates for urban natural gas-related methane emissions from this sector in Europe. While cities with larger reported emissions were found to generally also have larger observed emissions, we find clear discrepancies between observation-based and inventory-based emission estimates for our 12 cities.
AB - To mitigate methane emission from urban natural gas distribution systems, it is crucial to understand local leak rates and occurrence rates. To explore urban methane emissions in cities outside the U.S., where significant emissions were found previously, mobile measurements were performed in 12 cities across eight countries. The surveyed cities range from medium size, like Groningen, NL, to large size, like Toronto, CA, and London, UK. Furthermore, this survey spanned across European regions from Barcelona, ES, to Bucharest, RO. The joint analysis of all data allows us to focus on general emission behavior for cities with different infrastructure and environmental conditions. We find that all cities have a spectrum of small, medium, and large methane sources in their domain. The emission rates found follow a heavy-tailed distribution, and the top 10% of emitters account for 60-80% of total emissions, which implies that strategic repair planning could help reduce emissions quickly. Furthermore, we compare our findings with inventory estimates for urban natural gas-related methane emissions from this sector in Europe. While cities with larger reported emissions were found to generally also have larger observed emissions, we find clear discrepancies between observation-based and inventory-based emission estimates for our 12 cities.
KW - cities
KW - greenhouse gas mitigation
KW - methane
KW - mobile surveys
KW - natural gas
UR - http://www.scopus.com/inward/record.url?scp=85184006142&partnerID=8YFLogxK
U2 - 10.1021/acs.est.3c03160
DO - 10.1021/acs.est.3c03160
M3 - Article
C2 - 38270974
AN - SCOPUS:85184006142
SN - 0013-936X
VL - 58
SP - 2271
EP - 2281
JO - Environmental Science and Technology
JF - Environmental Science and Technology
IS - 5
ER -