Particulate and Gaseous Emissions from a Large Two-Stroke Slow-Speed Marine Engine Equipped with Open-Loop Scrubber under Real Sailing Conditions
-
Published:2024-07-17
Issue:7
Volume:15
Page:845
-
ISSN:2073-4433
-
Container-title:Atmosphere
-
language:en
-
Short-container-title:Atmosphere
Author:
Grigoriadis Achilleas1, Kousias Nikolaos1ORCID, Raptopoulos-Chatzistefanou Anastasios1ORCID, Salberg Håkan2, Moldanová Jana2ORCID, Hermansson Anna-Lunde3, Cha Yingying2, Kontses Anastasios1ORCID, Toumasatos Zisimos1ORCID, Mamarikas Sokratis1, Ntziachristos Leonidas1ORCID
Affiliation:
1. Department of Mechanical Engineering, Aristotle University, P.O. Box 458, 54124 Thessaloniki, Greece 2. IVL Swedish Environmental Research Institute, 40014 Gothenburg, Sweden 3. Department of Mechanics and Maritime Sciences, Chalmers University of Technology, Horselgangen 4, 41756 Gothenburg, Sweden
Abstract
Particulate and gaseous emissions were studied from a large two-stroke slow-speed diesel engine equipped with an open-loop scrubber, installed on a 78,200 metric tonnes (deadweight) containership, under real operation. This paper presents the on-board emission measurements conducted upstream and downstream of the scrubber with heavy fuel oil (HFO) and ultra-low sulfur fuel oil (ULSFO). Particle emissions were examined under various dilution ratios and temperature conditions, and with two thermal treatment setups, involving a thermodenuder (TD) and a catalytic stripper (CS). Our results show a 75% SO2 reduction downstream of the scrubber with the HFO to emission-compliant levels, while the use of the ULSFO further decreased SO2 levels. The operation of the scrubber produced higher particle number levels compared to engine-out, attributed to the condensational growth of nanometer particle cores, salt and the formation of sulfuric acid particles in the smaller size range, induced by the scrubber. The use of a TD and a CS eliminates volatiles but can generate new particles when used in high-sulfur conditions. The results of this study contribute to the generally limited understanding of the particulate and gaseous emission performance of open-loop scrubbers in ships and could feed into emission and air quality models for estimating marine pollution impacts.
Funder
European Union’s Horizon 2020 research and innovation programme Evaluation, control and Mitigation of the EnviRonmental Impacts of shipping Emissions
Reference71 articles.
1. United Nations Conference on Trade and Development (2023). Review of Maritime Transport 2022, United Nations Conference on Trade and Development. 2. The Contribution of Ship Emissions to Air Pollution in the North Sea Regions;Matthias;Environ. Pollut.,2010 3. Mitigating the Health Impacts of Pollution from Oceangoing Shipping: An Assessment of Low-Sulfur Fuel Mandates;Winebrake;Environ. Sci. Technol.,2009 4. Variations and Characteristics of Carbonaceous Substances Emitted from a Heavy Fuel Oil Ship Engine under Different Operating Loads;Zhang;Environ. Pollut.,2021 5. Lehtoranta, K., Aakko-Saksa, P., Murtonen, T., Vesala, H., Kuittinen, N., Rönkkö, T., Ntziachristos, L., Karjalainen, P., Timonen, H., and Teinilä, K. (2019, January 10–14). Particle and Gaseous Emissions from Marine Engines Utilizing Various Fuels and Aftertreatment Systems. Proceedings of the 29th CIMAC World Congress on Combustion Engine, Vancouver, QC, Canada.
|
|