This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Viana, M., Hammingh, P., Colette, A., Querol, X., Degraeuwe, B., de Vlieger, I., & van Aardenne, J. (2014). Impact of maritime transport emissions on coastal air quality in Europe. Atmos. Environ., 90, 96–105.VianaM.HamminghP.ColetteA.QuerolX.DegraeuweB.de VliegerI.van AardenneJ.2014Impact of maritime transport emissions on coastal air quality in EuropeAtmos. Environ.909610510.1016/j.atmosenv.2014.03.046Search in Google Scholar
European Federation for Transport and Environment. (2020). Shipping's impact on air quality. Retrieved July 17, 2020, from https://www.transportenvironment.org/what-we-do/shipping/air-pollution-ships.European Federation for Transport and Environment2020Shipping's impact on air qualityRetrieved July 17, 2020, from https://www.transportenvironment.org/what-we-do/shipping/air-pollution-ships.Search in Google Scholar
DieselNet. (2020). IMO Marine Engine Regulations. Retrieved July 4, 2020, from https://www.dieselnet.com/standards/inter/imo.php.DieselNet2020IMO Marine Engine RegulationsRetrieved July 4, 2020, from https://www.dieselnet.com/standards/inter/imo.php.Search in Google Scholar
International Maritime Organization. (2019). Nitrogen oxides (NOx) – Regulation 13. Retrieved July 17, 2019, from http://www.imo.org/en/OurWork/environment/pollutionprevention/airpollution/pages/nitrogen-oxides-(nox)-%E2%80%93-regulation-13.aspx.International Maritime Organization2019Nitrogen oxides (NOx) – Regulation 13Retrieved July 17, 2019, from http://www.imo.org/en/OurWork/environment/pollutionprevention/airpollution/pages/nitrogen-oxides-(nox)-%E2%80%93-regulation-13.aspx.Search in Google Scholar
McGill, R., Remley, W. B., & Winther, K. (2013). Alternative fuels for marine applications. A Report from the IEA Advanced Motor Fuels Implementing Agreement. Annex 41. Paris: International Energy Agency. Available from https://www.iea-amf.org/app/webroot/files/file/Annex%20Reports/AMF_Annex_41.pdf.McGillR.RemleyW. B.WintherK.2013Alternative fuels for marine applications. A Report from the IEA Advanced Motor Fuels Implementing Agreement. Annex 41ParisInternational Energy AgencyAvailable from https://www.iea-amf.org/app/webroot/files/file/Annex%20Reports/AMF_Annex_41.pdf.Search in Google Scholar
Nyman, G. B. G., & Tokerud, A. (1991). Seawater scrubbing removes SO2 from refinery flue-gases. Oil & Gas Journal, 89(26), 52–54.NymanG. B. G.TokerudA.1991Seawater scrubbing removes SO2 from refinery flue-gasesOil & Gas Journal89265254Search in Google Scholar
Lovblad, G., & Fridel, E. (2006). Experiences from use of some techniques to reduce emissions from ships. Göteborg: Swedish Maritime Administration and Region Västra Götaland.LovbladG.FridelE.2006Experiences from use of some techniques to reduce emissions from shipsGöteborgSwedish Maritime Administration and Region Västra GötalandSearch in Google Scholar
Winnes, H., Fridell, E., Yaramenka, K., Nelissen, D., Faber, J., & Ahdour, S. (2016). NOx controls for shipping in EU seas. Stockholm: IVL Swedish Environmental Research Institute and CE Delft.WinnesH.FridellE.YaramenkaK.NelissenD.FaberJ.AhdourS.2016NOx controls for shipping in EU seasStockholmIVL Swedish Environmental Research Institute and CE DelftSearch in Google Scholar
Zwolińska, E., Sun, Y., Chmielewski, A. G., Pawelec, A., & Bułka, S. (2020). Removal of high concentrations of NOx and SO2 from diesel off-gases using a hybrid electron beam technology. Energy Rep., 6, 952–964.ZwolińskaE.SunY.ChmielewskiA. G.PawelecA.BułkaS.2020Removal of high concentrations of NOx and SO2 from diesel off-gases using a hybrid electron beam technologyEnergy Rep.695296410.1016/j.egyr.2020.04.008Search in Google Scholar
Zhao, L., Sun, Y., Chmielewski, A. G., Pawelec, A., & Bułka, S. (2020). NO oxidation with NaClO, NaClO2, and NaClO3 solution using electron beam and a one stage absorption system. Plasma Chem. Plasma Process., 40, 433–447.ZhaoL.SunY.ChmielewskiA. G.PawelecA.BułkaS.2020NO oxidation with NaClO, NaClO2, and NaClO3 solution using electron beam and a one stage absorption systemPlasma Chem. Plasma Process.4043344710.1007/s11090-019-10022-9Search in Google Scholar
Torims, T., Kravalis, K., Pikurs, G., Ruse, A., Chmielewski, A. G., Pawelec, A., Zimek, Z., Mattausch, G., & Vretenar, M. (2020). Development of a hybrid electron accelerator system for the treatment of marine diesel exhaust gases. In Proceedings of the 11th International Particle Accelerator Conference, May 10–15, 2020, Ganil/Caen, France. DOI: 10.18429/JACoW-IPAC2020-THVIR14..TorimsT.KravalisK.PikursG.RuseA.ChmielewskiA. G.PawelecA.ZimekZ.MattauschG.VretenarM.2020Development of a hybrid electron accelerator system for the treatment of marine diesel exhaust gasesInProceedings of the 11th International Particle Accelerator ConferenceMay 10–15, 2020Ganil/Caen, France10.18429/JACoW-IPAC2020-THVIR14Open DOISearch in Google Scholar