Marwa Hassan
Chief Growth Officer
Aeromon
Marwa Hassan is Chief Growth Officer at Aeromon, with 20+ years in digitalization and emissions management in Oil & Gas. Holding an MSc in Nuclear Engineering and an MBA, she spent 18 years at SLB driving digital oilfield innovation across the Middle East, Europe, and North America. Since 2022, she has focused on emission reduction, delivering 200+ global presentations. At Aeromon, she spearheads global strategies to embed emissions intelligence into operational, compliance, and investment decisions.
Participates in
TECHNICAL PROGRAMME | Energy Leadership
Public Policy (Global and Local) - Climate Change, Transition Management, Supply Security and Energy Affordability
Forum 26 | Digital Poster Plaza 5
28
April
10:00
12:00
UTC+3
Effective implementation of emissions reduction policies whether aligned with OGMP 2.0, the EU Methane Regulation (EU 2024/1781), or national climate frameworks depends on access to reliable, site-specific data. This paper presents findings from over 1,000 mobile measurement campaigns conducted globally across upstream and midstream oil and gas assets, showing how airborne, multi-component monitoring has been used to support both regulatory policy and operational decision-making.
Emissions data was collected using a mobile measurement platform capable of quantifying methane, carbon dioxide, sulfur compounds, VOCs, and assessing flare performance. The system produces high-resolution outputs suitable for regulatory use, including concentration mapping, emission rate estimation, flare combustion efficiency and flare Destruction and Removal Efficiency (DRE). Measurement protocols are aligned with EN 17628:2022 for fugitive emissions detection and follow ISO/IEC 17025:2017 standards for calibration and traceability. The resulting datasets are directly applicable for site-level emissions reporting, operational optimization, and compliance planning.
Case studies from different countries demonstrate how national energy agencies and NOCs used this data to:
Identify high-priority assets for targeted action.
Avoid blanket regulations that would increase compliance costs for low-emitting sites.
Phase policy requirements based on actual site performance.
Reduce unnecessary CAPEX by validating maintenance decisions with measured data.
Conclusion: Integrating multi-component, site-level measurement into policy and operational planning allows governments to set ambitious emissions targets while maintaining energy affordability and supply security. This supports more adaptive, cost-effective, and data-driven climate policy implementation.
Emissions data was collected using a mobile measurement platform capable of quantifying methane, carbon dioxide, sulfur compounds, VOCs, and assessing flare performance. The system produces high-resolution outputs suitable for regulatory use, including concentration mapping, emission rate estimation, flare combustion efficiency and flare Destruction and Removal Efficiency (DRE). Measurement protocols are aligned with EN 17628:2022 for fugitive emissions detection and follow ISO/IEC 17025:2017 standards for calibration and traceability. The resulting datasets are directly applicable for site-level emissions reporting, operational optimization, and compliance planning.
Case studies from different countries demonstrate how national energy agencies and NOCs used this data to:
Identify high-priority assets for targeted action.
Avoid blanket regulations that would increase compliance costs for low-emitting sites.
Phase policy requirements based on actual site performance.
Reduce unnecessary CAPEX by validating maintenance decisions with measured data.
Conclusion: Integrating multi-component, site-level measurement into policy and operational planning allows governments to set ambitious emissions targets while maintaining energy affordability and supply security. This supports more adaptive, cost-effective, and data-driven climate policy implementation.
