Airborne in situ quantification of methane emissions from oil and gas production in Romania

Hossein Maazallahi; Foteini Stavropoulou; Samuel Jonson Sutanto; Michael Steiner; Dominik Brunner; Mariano Mertens; Patrick Jöckel; Antoon Visschedijk; Hugo Denier Van Der Gon; Stijn Dellaert; Nataly Velandia Salinas; Stefan Schwietzke; Daniel Zavala-Araiza; Sorin Ghemulet; Alexandru Pana; Magdalena Ardelean; Marius Corbu; Andreea Calcan; Stephen A. Conley; Mackenzie L. Smith; Thomas Röckmann

doi:10.5194/acp-25-1497-2025

Airborne in situ quantification of methane emissions from oil and gas production in Romania

Hossein Maazallahi^*, Foteini Stavropoulou, Samuel Jonson Sutanto, Michael Steiner, Dominik Brunner, Mariano Mertens, Patrick Jöckel, Antoon Visschedijk, Hugo Denier Van Der Gon, Stijn Dellaert, Nataly Velandia Salinas, Stefan Schwietzke, Daniel Zavala-Araiza, Sorin Ghemulet, Alexandru Pana, Magdalena Ardelean, Marius Corbu, Andreea Calcan, Stephen A. Conley, Mackenzie L. SmithThomas Röckmann

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Production of oil and gas in Romania, one of the largest producers in the European Union (EU), is associated with substantial emissions of methane to the atmosphere and may offer high emission mitigation potential to reach the climate objectives of the EU. However, comprehensive quantification of emissions in this area has been lacking. Here we report top-down emission rate estimates derived from aircraft-based in situ measurements that were carried out with two aircraft during the 2019 ROmanian Methane Emissions from Oil and gas (ROMEO) campaign, supported by simulations with atmospheric models. Estimates from mass balance flights at individual dense production clusters and around larger regions show large variations between the clusters, supporting the important role of individual super-emitters, and possibly show variable operation practices or maintenance states across the production basin. Estimated annual total emissions from the southern Romanian oil and gas (O&G) infrastructure are 227 ± 86 kt CH4 yr-1, consistent with previously published estimates from ground-based site-level measurements during the same period. The comparison of individual plumes between measurements and atmospheric model simulations was complicated by unfavorable low-wind conditions. Similar correlations between measured and simulated CH4 enhancements during large-scale raster flights and mass balance flights suggest that the emission factor determined from a limited number of production clusters is representative of the larger regions. We conclude that ground-based and aerial emission rate estimates derived from the ROMEO campaign agree well, and the aircraft observations support the previously suggested large under-reporting of CH4 emissions from the Romanian O&G industry in 2019 to United Nations Framework Convention on Climate Change (UNFCCC). We also observed large underestimation from O&G emissions in the Emissions Database for Global Atmospheric Research (EDGAR) v7.0 for our domain of study. Author(s) 2025.

Original language	English
Pages (from-to)	1497-1511
Number of pages	15
Journal	Atmospheric chemistry and physics
Volume	25
Issue number	3
DOIs	https://doi.org/10.5194/acp-25-1497-2025
Publication status	Published - 14 Feb 2025

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© 2025 Copernicus Publications. All rights reserved.

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Maazallahi, H., Stavropoulou, F., Sutanto, S. J., Steiner, M., Brunner, D., Mertens, M., Jöckel, P., Visschedijk, A., Denier Van Der Gon, H., Dellaert, S., Velandia Salinas, N., Schwietzke, S., Zavala-Araiza, D., Ghemulet, S., Pana, A., Ardelean, M., Corbu, M., Calcan, A., Conley, S. A., ... Röckmann, T. (2025). Airborne in situ quantification of methane emissions from oil and gas production in Romania. Atmospheric chemistry and physics, 25(3), 1497-1511. https://doi.org/10.5194/acp-25-1497-2025

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title = "Airborne in situ quantification of methane emissions from oil and gas production in Romania",

abstract = "Production of oil and gas in Romania, one of the largest producers in the European Union (EU), is associated with substantial emissions of methane to the atmosphere and may offer high emission mitigation potential to reach the climate objectives of the EU. However, comprehensive quantification of emissions in this area has been lacking. Here we report top-down emission rate estimates derived from aircraft-based in situ measurements that were carried out with two aircraft during the 2019 ROmanian Methane Emissions from Oil and gas (ROMEO) campaign, supported by simulations with atmospheric models. Estimates from mass balance flights at individual dense production clusters and around larger regions show large variations between the clusters, supporting the important role of individual super-emitters, and possibly show variable operation practices or maintenance states across the production basin. Estimated annual total emissions from the southern Romanian oil and gas (O&G) infrastructure are 227 ± 86 kt CH4 yr-1, consistent with previously published estimates from ground-based site-level measurements during the same period. The comparison of individual plumes between measurements and atmospheric model simulations was complicated by unfavorable low-wind conditions. Similar correlations between measured and simulated CH4 enhancements during large-scale raster flights and mass balance flights suggest that the emission factor determined from a limited number of production clusters is representative of the larger regions. We conclude that ground-based and aerial emission rate estimates derived from the ROMEO campaign agree well, and the aircraft observations support the previously suggested large under-reporting of CH4 emissions from the Romanian O&G industry in 2019 to United Nations Framework Convention on Climate Change (UNFCCC). We also observed large underestimation from O&G emissions in the Emissions Database for Global Atmospheric Research (EDGAR) v7.0 for our domain of study. Author(s) 2025.",

author = "Hossein Maazallahi and Foteini Stavropoulou and Sutanto, {Samuel Jonson} and Michael Steiner and Dominik Brunner and Mariano Mertens and Patrick J{\"o}ckel and Antoon Visschedijk and {Denier Van Der Gon}, Hugo and Stijn Dellaert and {Velandia Salinas}, Nataly and Stefan Schwietzke and Daniel Zavala-Araiza and Sorin Ghemulet and Alexandru Pana and Magdalena Ardelean and Marius Corbu and Andreea Calcan and Conley, {Stephen A.} and Smith, {Mackenzie L.} and Thomas R{\"o}ckmann",

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Maazallahi, H, Stavropoulou, F, Sutanto, SJ, Steiner, M, Brunner, D, Mertens, M, Jöckel, P, Visschedijk, A, Denier Van Der Gon, H, Dellaert, S, Velandia Salinas, N, Schwietzke, S, Zavala-Araiza, D, Ghemulet, S, Pana, A, Ardelean, M, Corbu, M, Calcan, A, Conley, SA, Smith, ML & Röckmann, T 2025, 'Airborne in situ quantification of methane emissions from oil and gas production in Romania', Atmospheric chemistry and physics, vol. 25, no. 3, pp. 1497-1511. https://doi.org/10.5194/acp-25-1497-2025

TY - JOUR

T1 - Airborne in situ quantification of methane emissions from oil and gas production in Romania

AU - Maazallahi, Hossein

AU - Stavropoulou, Foteini

AU - Sutanto, Samuel Jonson

AU - Steiner, Michael

AU - Brunner, Dominik

AU - Mertens, Mariano

AU - Jöckel, Patrick

AU - Visschedijk, Antoon

AU - Denier Van Der Gon, Hugo

AU - Dellaert, Stijn

AU - Velandia Salinas, Nataly

AU - Schwietzke, Stefan

AU - Zavala-Araiza, Daniel

AU - Ghemulet, Sorin

AU - Pana, Alexandru

AU - Ardelean, Magdalena

AU - Corbu, Marius

AU - Calcan, Andreea

AU - Conley, Stephen A.

AU - Smith, Mackenzie L.

AU - Röckmann, Thomas

PY - 2025/2/14

Y1 - 2025/2/14

N2 - Production of oil and gas in Romania, one of the largest producers in the European Union (EU), is associated with substantial emissions of methane to the atmosphere and may offer high emission mitigation potential to reach the climate objectives of the EU. However, comprehensive quantification of emissions in this area has been lacking. Here we report top-down emission rate estimates derived from aircraft-based in situ measurements that were carried out with two aircraft during the 2019 ROmanian Methane Emissions from Oil and gas (ROMEO) campaign, supported by simulations with atmospheric models. Estimates from mass balance flights at individual dense production clusters and around larger regions show large variations between the clusters, supporting the important role of individual super-emitters, and possibly show variable operation practices or maintenance states across the production basin. Estimated annual total emissions from the southern Romanian oil and gas (O&G) infrastructure are 227 ± 86 kt CH4 yr-1, consistent with previously published estimates from ground-based site-level measurements during the same period. The comparison of individual plumes between measurements and atmospheric model simulations was complicated by unfavorable low-wind conditions. Similar correlations between measured and simulated CH4 enhancements during large-scale raster flights and mass balance flights suggest that the emission factor determined from a limited number of production clusters is representative of the larger regions. We conclude that ground-based and aerial emission rate estimates derived from the ROMEO campaign agree well, and the aircraft observations support the previously suggested large under-reporting of CH4 emissions from the Romanian O&G industry in 2019 to United Nations Framework Convention on Climate Change (UNFCCC). We also observed large underestimation from O&G emissions in the Emissions Database for Global Atmospheric Research (EDGAR) v7.0 for our domain of study. Author(s) 2025.

AB - Production of oil and gas in Romania, one of the largest producers in the European Union (EU), is associated with substantial emissions of methane to the atmosphere and may offer high emission mitigation potential to reach the climate objectives of the EU. However, comprehensive quantification of emissions in this area has been lacking. Here we report top-down emission rate estimates derived from aircraft-based in situ measurements that were carried out with two aircraft during the 2019 ROmanian Methane Emissions from Oil and gas (ROMEO) campaign, supported by simulations with atmospheric models. Estimates from mass balance flights at individual dense production clusters and around larger regions show large variations between the clusters, supporting the important role of individual super-emitters, and possibly show variable operation practices or maintenance states across the production basin. Estimated annual total emissions from the southern Romanian oil and gas (O&G) infrastructure are 227 ± 86 kt CH4 yr-1, consistent with previously published estimates from ground-based site-level measurements during the same period. The comparison of individual plumes between measurements and atmospheric model simulations was complicated by unfavorable low-wind conditions. Similar correlations between measured and simulated CH4 enhancements during large-scale raster flights and mass balance flights suggest that the emission factor determined from a limited number of production clusters is representative of the larger regions. We conclude that ground-based and aerial emission rate estimates derived from the ROMEO campaign agree well, and the aircraft observations support the previously suggested large under-reporting of CH4 emissions from the Romanian O&G industry in 2019 to United Nations Framework Convention on Climate Change (UNFCCC). We also observed large underestimation from O&G emissions in the Emissions Database for Global Atmospheric Research (EDGAR) v7.0 for our domain of study. Author(s) 2025.

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U2 - 10.5194/acp-25-1497-2025

DO - 10.5194/acp-25-1497-2025

M3 - Article

AN - SCOPUS:85218920099

SN - 1680-7316

VL - 25

SP - 1497

EP - 1511

JO - Atmospheric chemistry and physics

JF - Atmospheric chemistry and physics

IS - 3

ER -

Airborne in situ quantification of methane emissions from oil and gas production in Romania

Abstract

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