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ISSN 2083-6473
ISSN 2083-6481 (electronic version)
 

 

 

Editor-in-Chief

Associate Editor
Prof. Tomasz Neumann
 

Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
www http://www.transnav.eu
e-mail transnav@umg.edu.pl
Alternative Fuels – Prospects for the Shipping Industry
1 Gdynia Maritime University, Gdynia, Poland
ABSTRACT: Emissions from the sea transport sector are one of the major contributors to the climate change due to extreme dependency on fossil fuels. Environmental revolution has pushed shipping to focus significantly on the potential application of different cleaner fuels and sustainable source of energy solutions. The global shipping industry is considering alternative fuel options that meet economic feasibility and safety requirements. There is a variety of alternative fuel types available for shipping, such as liquefied natural gas (LNG), methanol, hydrogen, ethanol, ammonia and others. For many years, the advantages and disadvantages of using selected alternative fuels have been analysed from the point of view of sea transport costs. This paper presents the basic parameters for comparing different fuels, the characteristics needed to adopt alternative fuels in maritime transport. In addition, it provides an overview of the main technical challenges and drivers for the adoption of alternative marine fuels assessed through infrastructural, economic and environmental dimensions.
REFERENCES
K. Gore, P. Rigot-Müller, J. Coughlan, 2022, “Cost assessment of alternative fuels for maritime transportation in Ireland”, Transp Res D, 110. Available: - doi:10.1016/j.trd.2022.103416
OECD, “International transport forum”, Transport outlook, Paris, 2021.
IEA, “World Energy Outlook”, Paris, 2017.
H. Ritchie, M. Roser, P. Rosado, “CO₂ and Greenhouse Gas Emissions”, 2020. Published online at OurWorldInData.org. Available: https://ourworldindata.org/co2-and-greenhouse-gas-emissions.
L. Van Hoecke, L. Laffineur, R. Campe, P. Perreault, W. Verbruggen, S. Lenaerts, 2021, “Challenges in the use of hydrogen for maritime applications”, Energy Environ. Sci., 14, 815843. Available: - doi:10.1039/D0EE01545H
P. Balcobe, J. Staffel, I.G. Kerdan, J.F. Speirs, N.P. Brandon, A.D. Hawkes, 2021, “How can LNG fuelled ships meet decarbonisation targets? An environmental and economic analysis”, Energy, 227, 120462. Available: - doi:10.1016/j.energy.2021.120462
Y. Zhao, F. Fan, K. Fagerholt, J. Zhou, 2021, “Reducing sulphur and nitrogen emissions in shipping economically”, Transp. Res. Part d Transp. Environ. 90, 102641. Available: - doi:10.1016/j.trd.2020.102641
J. D. Ampah, A. A. Yusuf, S. Afrane, C. Jin, H. Liu, 2021, “Reviewing two decades of cleaner alternative marine fuels: towards IMO’s decarbonisation of the maritime transport sector”, J. Clean. 320. 128871. Available: - doi:10.1016/j.jclepro.2021.128871
IMO, CCC 7/3/9, “Amendments to the IGF Code and Development of Guidelines for Low-flashpoint Fuels”, International Maritime Organization, UK, 2022.
EU Monitor, “COM(2021)562 - Use of renewable and low-carbon fuels in maritime transport”, 2021.
M. Prussi, N. Scarlat, M. Acciaro, V. Kosmos, 2021, “Potential and limiting factors in the use of alternative fuels in the European maritime sector”, J. Clean. Prod. 291. Available: - doi:10.1016/j.jclepro.2021.125849
B. Jeong, B.S. Lee, P. Zhou, S. Ha, 2018, “Determination of safety exclusion zone for LNG bunkering at fuel-supplying point”, Ocean Eng. 152, pp. 113-129. Available: - doi:10.1016/j.oceaneng.2018.01.066
Guidelines for systems and installations for supply of LNG as fuel to ships, ISO standard Geneva Switzerland, 2015.
D. Gribi, A.A. Zerrouki, N. Chennpuf, “Liquefied Natural Gas can be the alternative marine fuel with the new regulation on sulphur emissions to protect the environment”, J. Mater. Environ. Sci., 12(4), pp. 595-602, 2021.
M. Al-Breiki, Y. Bicer, 2021, “Comparative life cycle assessment of sustainable energy carriers including production, storage, overseas transport and utilization”, J. Clean. Prod. 279. Available: - doi:10.1016/j.jclepro.2020.123481
E. T. Iannaccone, G. Landucci, G.E. Scarponi, S. Bonvivini, V. Cozzani, “Inherent safety assessment of alternative technologies for LNG ship bunkering”, Ocean Eng. 185, pp. 100-114, 2019. - doi:10.1016/j.oceaneng.2019.05.028
American Bureau of Shipping, “Sustainability Whitepaper: Hydrogen as Marine Fuel”, Spring, USA, 2022.
A.R. Nerheim, V. Ǣsøy, F. T. Holmeset, 2021, “Hydrogen as a Maritime Fuel-Can Experience with LNG Be Transferred to Hydrogen Systems?” J. Mar. Sci Eng. 9, pp. 743-749. Available: - doi:10.3390/jmse9070743
C. Acar, I. Dincer, 2019, “Review and evaluation of hydrogen production options for better environment”, J. Clean Prod. 218, pp. 835–49. Available: - doi:10.1016/j.jclepro.2019.02.046
J. Faber, S. Hanayama, S. Zhang, P. Pereda, B. Comer, E. Hauerhof, W.S. van der Loeff, T. Smith, Y. Zhang, H. Kosaka, et al. “Reduction of GHG Emissions from Ships—Fourth IMO GHG Study 2020—Final Report”, International Maritime Organization IMO, London, UK, 2020.
A. Al-Enazi, E. Okonkwo, Y. Bicer, T. Al-Ausari, 2021, “A review of cleaner alternative fuels for maritime transport”, Energy Rep. 7, pp. 1962-1985. Available: - doi:10.1016/j.egyr.2021.03.036
J. Camilo Gomez Trillos, D. Wilken, U. Brand, T. Vogt, J.C. Trillos, U. Brand, T. Vogt, D. Wilken, “Life cycle assessment of a hydrogen and fuel cell ropax ferry prototype. In Progress in Life Cycle Assessment”, Springer: Berlin, Germany, 2019.
N. Ash, T. Scarbrough, “Sailing on solar: Could green ammonia decarbonize international shipping?” Environmental Defence Fund, London, 2019.
J.J. De-Troya, C. Álvarez, C. Fernández-Garrido, L. Carral, “Analysing the possibilities of using fuel cells in ships”, Int. J. Hydrog. Energy, 41, pp. 2853–2866, 2016. - doi:10.1016/j.ijhydene.2015.11.145
S. Ueda, K. Tsumura, Y. Watambe, H. Tamura, D." Yamada, LNG as fuel" to "Ammonia as fuel (Ship's fuel transition to achieve carbon neutrality)”, Mitsubishi Heavy Ind Tech Rev , 599(2), June 2022.
ITF, “Decarbonising Maritime Transport. Pathways to Zero-Carbon Shipping by 2035”, International Transport Forum: Paris, France, 2018.
IMO, CCC 8/INF. 17. “A Study on the Transportation Cost of a Liquefied Hydrogen Carrier Using Boil-off-gas as a Fuel”, International Maritime Organization IMO, London, UK, 2022.
M., Svenberg, J. Ellis, J. Ludgren, I. Landälv, “Renewable methanol as a fuel for the shipping industry”, Renewable Sustainable Energy Rev. 94, pp. 1217-1228, 2018. - doi:10.1016/j.rser.2018.06.058
K. Andersson, C. M. Salazar, “Methanol as a marine fuel report” Methanol Institute, 2015.
J. Metcalfe, L.R. Burger, J. Mackay, “Unlocking South Africa’s hydrogen potential. PwC Network”, 2020. Available: htttps://www.pwc.co.za/en/assets/pdf/unlocking-south-africa’s-hydrogen-potential. Pdf
DNV GL, “Comparison of alternative marine fuels”, For SEALNG, DNV GL. No 2019-0567,2019.
C.J. McKinlay, S.R. Turnock, D.A. Hudson, “A Comparison of Hydrogen and Ammonia for Future Long Distance Shipping Fuels”, The Royal Institution of Naval Architects LNG/LPG and Alternative Fuels. UK, 2020.
G. Nikolau, N. Xydas, “LPG bunkering: guide for LPG marine fuel supply”, World LPG Association, 2019.
A. Foretich, G. D. Zaimes, T.R. Hawkins, E. Newes, 2021, “Challenges and opportunities for alternative fuels in the maritime sector”, Marit. Transp. Res. 2. 100033. Available: - doi:10.1016/j.martra.2021.100033
D. A. Chisalita, L. Petrescu, C. C. Cormos, 2020, „ Environmental evaluation of European ammonia production considering various hydrogen supply chains”, Renewable Sustainable Energy Rev., 130. Available: - doi:10.1016/j.rser.2020.109964
T. Ayvalı, S. C. Edman Tsang, “The Position of Ammonia in Decarbonising Maritime Industry: An Overview and Perspectives: Part II”, Johnson Matthey Technol. Rev., 65(2), pp. 291–300, 2021 - doi:10.1595/205651321X16127941688787
Citation note:
Popek M.: Alternative Fuels – Prospects for the Shipping Industry. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 18, No. 1, doi:10.12716/1001.18.01.01, pp. 25-33, 2024
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