Is Hydrogen the Future Golden Boy of Maritime Transportation?

Al Qubeissi, M., Al-Esawi, N., & Soyhan, H. S. (2021). Combustion of Fuel Surrogates: An application to gas turbine engines. Energies, 14(20), 6545. Search in Google Scholar

Alves, M. P., Gul, W., Cimini Junior, C. A., & Ha, S. K. (2022). A Review on Industrial Perspectives and Challenges on Material, Manufacturing, Design and Development of Compressed Hydrogen Storage Tanks for the Transportation Sector. Energies, 15(14), 5152. Search in Google Scholar

Andersson, J., & Grönkvist, S. (2019). Large-scale storage of hydrogen. International journal of hydrogen energy, 44(23), 11901-11919. Search in Google Scholar

Bicer, Y., Dincer, I., Vezina, G., & Raso, F. (2017). Impact assessment and environmental evaluation of various ammonia production processes. Environmental management, 59(5), 842-855. Search in Google Scholar

Crippa, M., Guizzardi, D., Banja, M., Solazzo, E., Muntean, M., Schaaf, E., Pagani, F., Monforti- Ferrario, F., Olivier, J., Quadrelli, R., Risquez Martin, A., Taghavi-Moharamli, P., Grassi, G., Rossi, S., Jacome Felix Oom, D., Branco, A., San-Miguel-Ayanz, J. and Vignati, E., CO2 emissions of all world countries - 2022 Report, EUR 31182 EN, Publications Office of the European Union, Luxembourg, 2022, doi:10.2760/730164, JRC130363. Search in Google Scholar

Deniz, C., & Zincir, B. (2016). Environmental and economical assessment of alternative marine fuels. Journal of Cleaner Production, 113, 438-449. Search in Google Scholar

Dornheim, M., Baetcke, L., Akiba, E., Ares, J. R., Autrey, T., Barale, J., ... & Zoulias, E. (2022).Research and development of hydrogen carrier based solutions for hydrogen compression and storage. Progress in Energy, 4(4), 042005. Search in Google Scholar

Grigoriev, S. A., Fateev, V. N., Bessarabov, D. G., & Millet, P. (2020). Current status, research trends, and challenges in water electrolysis science and technology. International Journal of Hydrogen Energy, 45(49), 26036-26058. Search in Google Scholar

Inal, O. B., Zincir, B., & Dere, C. (2022). Hydrogen as Maritime Transportation Fuel: A Pathway for Decarbonization. In Greener and Scalable E-fuels for Decarbonization of Transport (pp. 67-110). Springer, Singapore. Search in Google Scholar

Khzouz, M., & Gkanas, E. I. (2020). Hydrogen technologies for mobility and stationary applications: hydrogen production, storage and infrastructure development. In Renewable Energy-Resources, Challenges and Applications. IntechOpen. Search in Google Scholar

Lucquiaud, M., Liang, X., Errey, O., Chalmers, H., & Gibbins, J. (2013). Addressing technology uncertainties in power plants with post-combustion capture. Energy Procedia, 37, 2359-2368. Search in Google Scholar

Nikolaidis, P., & Poullikkas, A. (2021). A novel cluster-based spinning reserve dynamic model for wind and PV power reinforcement. Energy, 234, 121270. Search in Google Scholar

Pomaska, L., & Acciaro, M. (2022). Bridging the Maritime-Hydrogen Cost-Gap: Real options analysis of policy alternatives. Transportation Research Part D: Transport and Environment, 107, 103283. Search in Google Scholar

Som, S., Longman, D. E., Luo, Z., Plomer, M., & Lu, T. (2011, October). Three dimensional simulations of diesel sprays using n-dodecane as a surrogate. In Fall technical meeting of the eastern states section of the combustion institute (Vol. 12). Search in Google Scholar

Van Hoecke, L., Laffineur, L., Campe, R., Perreault, P., Verbruggen, S. W., & Lenaerts, S. (2021).Challenges in the use of hydrogen for maritime applications. Energy & Environmental Science, 14(2), 815-843. Search in Google Scholar