An Engine Load Monitoring Approach for Quantifying Yearly Methane Slip Emissions from an LNG-Powered RoPax Vessel

An Engine Load Monitoring Approach for Quantifying Yearly Methane Slip Emissions from an LNG-Powered RoPax Vessel

Liquefied natural gas (LNG) is increasingly used as a marine fuel due to its capacity to significantly reduce emissions of particulate matter, sulfur oxides (SO<sub>x</sub>), and nitrogen oxides (NO<sub>x</sub>), compared to conventional fuels. In addition, LNG combustion pro...

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Bibliographic Details
Main Authors: Benoit Sagot, Raphael Defossez, Ridha Mahi, Audrey Villot, Aurélie Joubert
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Journal of Marine Science and Engineering
Subjects:
engine load monitoring
LNG
methane slip
onboard measurement
yearly emission
Online Access:https://www.mdpi.com/2077-1312/13/7/1379
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Summary:Liquefied natural gas (LNG) is increasingly used as a marine fuel due to its capacity to significantly reduce emissions of particulate matter, sulfur oxides (SO<sub>x</sub>), and nitrogen oxides (NO<sub>x</sub>), compared to conventional fuels. In addition, LNG combustion produces less carbon dioxide (CO<sub>2</sub>) than conventional marine fuels, and the use of non-fossil LNG offers further potential for reducing greenhouse gas emissions. However, this benefit can be partially offset by methane slip—the release of unburned methane in engine exhaust—which has a much higher global warming potential than CO<sub>2</sub>. This study presents an experimental evaluation of methane emissions from a RoPax vessel powered by low-pressure dual-fuel four-stroke engines with a direct mechanical propulsion system. Methane slip was measured directly during onboard testing and combined with a year-long analysis of engine operation using an Engine Load Monitoring (ELM) method. The yearly average methane slip coefficient (<i>C</i><sub>slip</sub>) obtained was 1.57%, slightly lower than values reported in previous studies on cruise ships (1.7%), and significantly lower than the default values specified by the FuelEU (3.1%) Maritime regulation and IMO (3.5%) LCA guidelines. This result reflects the ship’s operational profile, characterized by long crossings at high and stable engine loads. This study provides results that could support more representative emission assessments and can contribute to ongoing regulatory discussions.
ISSN:2077-1312

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