https://orcid.org/0000-0002-8509-5824
References
- ABS. 2017. Guidance Notes on Fire-Fighting Systems FIRE-FIGHTING SYSTEMS FIRE-FIGHTING SYSTEMS. [Online]. Available from: http://www.iacs.org.Uk/publications [Accessed 29 December 2020].
- Anon. 2014. EUROPEAN MARITIME TRAFFIC RISK ASSESSMENT ON SHIP FIRES BALTIC SEA MIRG Baltic Sea Maritime Incident Response Group Project. [Online]. Available from: www.raja.fi/MIRG [Accessed 21 October 2020].
- Anon. 2016. Risk Focus: Engine Room Fires. [Online]. Available from: https://www.ukpandi.com/news-and-resources/bulletins/2016/risk-focus-engine-room-fires/ [Accessed 21 October 2020].
- Babicz, J. (2015) Wärtsilä Encyclopedia of Ship Technology. [Online]. Wärtsilä Corporation. Available from: https://books.google.gr/books?id=4BtNswEACAAJ
- CTSB. 2018. “Fire Safety Engineering.” [Online]. Available from: http://www.cstb.fr
- Danish Maritime Authority. 2017. “Analysis of Regulatory Barriers to the Use of Autonomous Ships Final Report.” Danish Maritime Authority Report.
- Department of Transportation, United States, U. E.P.A. 1989. “Handbook of Chemical Hazard Analysis Procedures.” NRT-1 ‘National Response Team’s Hazardous Materials Emergency Planning Guide’ expanded. [Online]. Federal Emergency Management Agency. Available from: https://books.google.gr/books?id=LowkSQAACAAJ
- Dimitriou, P., and R. Javaid. 2020. “A Review of Ammonia as A Compression Ignition Engine Fuel.” International Journal of Hydrogen Energy [Online] 45 (11): 7098–7118. doi:10.1016/j.ijhydene.2019.12.209. [Accessed 28 October 2020].
- DNV – GL. 2014. “Global LNG Solutions Recommended Practice on Bunkering Engines for Gas-fuelled Ships LNG Ready Service LNG as Ship Fuel.” [Online]. Available from: www.dnvgl.com [Accessed 6 April 2021].
- Freeman, R. A. 1990. “CCPS Guidelines for Chemical Process Quantitative Risk Analysis.” Plant/Operations Progress [Online] 9 (4), 231–235. Available from: doi:10.1002/prsb.720090409.
- Fridell, E., J. Hansson, and S. Brynolf. 2020. On the Potential of Ammonia as Fuel for Shipping A Synthesis of Knowledge (Göteborg, Sweden: Lighthouse Swedish Maritime Competence Centre).
- GIIGNL. 2019. “Basic Properties of LNG.” [Online]. Available from: https://giignl.org/ [Accessed 5 April 2021].
- Gilbert, P., C. Walsh, M. Traut, U. Kesieme, K. Pazouki, A. Murphy, et al. 2018. “Assessment of Full Life-cycle Air Emissions of Alternative Shipping Fuels.” Journal of Cleaner Production [Online] 172: 855–866. doi:10.1016/j.jclepro.2017.10.165.
- Han, X., and S. Krajnović. 2015. “Very-large-eddy Simulation Based on κ-ω Model.” AIAA Journal [Online] 53 (4): 1103–1108. doi:10.2514/1.J053341.
- Han, Z. Y., and W. G. Weng. 2011. “Comparison Study on Qualitative and Quantitative Risk Assessment Methods for Urban Natural Gas Pipeline Network.” Journal of Hazardous Materials [Online] 189 (1): 509–518. doi:10.1016/j.jhazmat.2011.02.067.
- Hansson, J., S. Brynolf, E. Fridell, and M. Lehtveer. 2020. “The Potential Role of Ammonia as Marine Fuel-based on Energy Systems Modeling and Multi-criteria Decision Analysis.” Sustainability (Switzerland) [Online] 12 (8): 3265. doi:10.3390/SU12083265.
- Hurley, M. J., D. Gottuk, J. R. Hall, K. Harada, et al. 2016. SFPE Handbook of Fire Protection Engineering, fifth. [Online]. New York, USA: Springer New York. [Online]: doi:10.1007/978-1-4939-2565-0.
- Hwang, J., K. Jung, et al. 2019. “Life Cycle Assessment of LNG Fueled Vessel in Domestic Services.” Journal of Marine Science and Engineering [Online] 7 (10): 359. doi:10.3390/jmse7100359.
- IACS. 2004. “What are Classification Societies.” [Online]. Available from: https://docplayer.net/30506347-Iacs-what-are-classification-societies-contents.html
- IARC. 1989. “Occupational Exposures in Petroleum Refining; Crude Oil and Major Petroleum Fuels.” [Online]. World Health Organization. Available from: https://publications.iarc.fr/63 [Accessed 6 April 2021].
- ICS. 2020. “Engine Room Procedures Guide | International Chamber of Shipping.” [Online]. Available from: https://www.ics-shipping.org/publication/engine-room-procedures-guide-mockup/ [Accessed 29 December 2020].
- IGF. 2015. Adoption of the International Code of Safety for Ships Using Gases or Other Low-flashpoint Fuels (IGF CODE) (London, UK: International Maritime Organisation).
- IMO. 2001. Guidelines on Alternative Design and Arrangements for Fire Safety (London, UK: International Maritime Organisation).
- IMO. 2015. “SOLAS Chapter II-2 - GOV.UK.” [Online]. Maritime and Coastguard Agency. Available from: https://www.gov.uk/government/publications/solas-chapter-ii-2 [Accessed 27 December 2020].
- Joung, T.-H., S.-G. Kang, J.-K. Lee, and J. Ahn. 2020. “The IMO Initial Strategy for Reducing Greenhouse Gas(GHG) Emissions, and Its Follow-up Actions Towards 2050.” Journal of International Maritime Safety, Environmental Affairs, and Shipping [Online] 4 (1): 1–7. doi:10.1080/25725084.2019.1707938. [Accessed 20 October 2020].
- Kim, K., G. Roh, W. Kim, and K. Chun. 2020. “A Preliminary Study on an Alternative Ship Propulsion System Fueled by Ammonia: Environmental and Economic Assessments.” Journal of Marine Science and Engineering [Online] 8 (3). doi:10.3390/jmse8030183.
- Korean Register. 2020. (No Title). [Online]. Available from: http://www.krs.co.kr/TECHNICAL_FILE/KR_Forecasting_the_Alternative_Marine_Fuel_Ammonia.pdf [Accessed 20 October 2020].
- Kroch, E. 1945. “Ammonia–a Fuel for Motor Buses.” claverton-energy.com. [Online]. Available from: http://claverton-energy.com/cms4/wp-content/files/NH3_bus_1945_JInstPetrol31_Pg213.pdf [Accessed 21 October 2020].
- Kuo, C. 2007. Safety Management and Its Maritime Application. London, UK: Nautical Institute.
- Laval, A., Hafnia, H. Topsøe, Vestas, et al. 2020. “Ammonfuel-an Industrial View of Ammonia as a Marine Fuel.” [Online]. Available from: https://hafniabw.com/news/ammonfuel-an-industrial-view-of-ammonia-as-a-marine-fuel/
- Mcgrattan, K., S. Hostikka, R. Mcdermott, J. Floyd, et al. 2013. Fire Dynamics Simulator User’s Guide (Washington, D.C.: U.S. Government Publishing Office).
- New York State, D. od H. 2005. “The Facts About Ammonia.” [Online]. Available from: https://www.health.ny.gov/environmental/emergency/chemical_terrorism/ammonia_tech.htm [Accessed 21 October 2020].
- Purkiss, J. A., and L. Y. Li. 2013. Fire Safety Engineering Design of Structures, Third. [Online]. Boca Raton, FL: Taylor & Francis. [Online]: https://books.google.gr/books?id=gUTBAQAAQBAJ
- Royal Society. 2020. “Ammonia: Zero-carbon Fertiliser, Fuel and Energy Store.” [Online]. Available from: https://royalsociety.org/-/media/policy/projects/green-ammonia/green-ammonia-policy-briefing.pdf
- Setchkin, N. P. 1954. “Self-Ignition Temperatures of Combustible Liquids.” Journal of Research of the National Bureau of Standards 53 (1): 49. doi:10.6028/jres.053.007.
- Smith, J. 1976. “Fire Safety on Ships. A Review of International Regulations and Suggestions for Improvement in Fire Safety Equipment.” Safety at Sea International [Online] (89): 20–22. https://trid.trb.org/view/65437 [Accessed 27 December 2020].
- Sprague, C. M., and B. L. Dolph. 1996. Theoretical Basis of the Ship Fire Safety Engineering Methodology CompuCon 21808 (Springfield, VA: National Technical Information Service).
- Su, S., and L. Wang. 2013. “Three Dimensional Reconstruction of the Fire in a Ship Engine Room with Multilayer Structures.” Ocean Engineering [Online] 70: 201–207. doi:10.1016/j.oceaneng.2013.05.032. [Accessed 4 April 2021].
- Wegrzynski, W., and P. Sulik. 2016. “The Philosophy of Fire Safety Engineering in the Shaping of Civil Engineering Development.” Bulletin of the Polish Academy of Sciences, Technical Sciences [Online] 64 (4): 719–730. doi:10.1515/bpasts-2016-0081.