This work is licensed under the Creative Commons Attribution 4.0 International License.
Dimerco, ‘IMO 2023 Regulations: Definition and Implications’ [online], available https://dimerco.com/imo-2023-regulations/Search in Google Scholar
IMO, ‘Rules on ship carbon intensity and rating system enter into force’ [online, viewed 18.06.2023], available from https://www.imo.org/en/MediaCentre/PressBriefings/pages/CII-and-EEXI-entry-into-force.aspxSearch in Google Scholar
F. Technology, ‘Retrofitting a new bulbous bow’ [online, viewed 02.07.2023] available https://forcetechnology.com/da/cases/retrofitting-af-en-ny-bulbSearch in Google Scholar
G. Filip, H. K. Dae, S. Sahu, J. de Kat, and M. Kevin, ‘Bulbous Bow Retrofit of a Containership Using an Open Source Computational Fluid Dynamics (CFD) Toolbox.’ Paper presented at the SNAME Maritime Convention, Houston, Texas, USA, October 2014. doi: https://doi.org/10.5957/SMC-2014-T58Search in Google Scholar
A.R. Nader and S.S. Ibrahim, ‘Enhancing energy efficiency for new generations of containerized shipping’, Ocean Engineering, Volume 215, 2020, 107887, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2020.107887.Search in Google Scholar
A.R. Nader and S.S. Ibrahim, ‘Hybrid/dual fuel propulsion systems towards decarbonization: Case study container ship Ocean Engineering, Volume 281, 2023, 114962, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2023.114962.Search in Google Scholar
H.R. Díaz-Ojeda, F. Pérez-Arribas, and T.R. Stephen, ‘The influence of dihedral bulbous bows on the resistance of small fishing vessels: A numerical study’, Ocean Engineering, Volume 281, 2023, 114661, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2023.114661.Search in Google Scholar
H.J. Cho, S.H. Lee, D. Oh, and J.K.J. Paik, ‘A numerical study on the added resistance and motion of a ship in bow quartering waves using a soft spring system’, Ocean Engineering, Volume 280, 2023, 114620, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2023.114620.Search in Google Scholar
Z. Liu, W. Liu, Q. Chen, F. Luo, and S. Zhai, ‘Resistance reduction technology research of high speed ships based on a new type of bow appendage’, Ocean Engineering, Volume 206, 2020, 107246, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2020.107246.Search in Google Scholar
International Maritime Organization, ‘Guidelines for Voluntary Use of the Ship Energy Efficiency Operational Indicator (EEOI)’, 2009.Search in Google Scholar
J. Boekhoff, ‘Understand your shipping emissions’ [online, viewed 08.07.2023] available from https://www.carbonchain.com/blog/understand-your-shipping-emissionsSearch in Google Scholar
‘Ship & Bunker, Rotterdam bunker price’ [online, available 08.07.2023] available from https://shipandbunker.com/prices/emea/nwe/nl-rtm-rotterdamSearch in Google Scholar
‘Classification Society, Appendix- calculation of energy efficiency operational indicator based on operational data’ [online viewed 01.07.2023] available from https://www.imorules.com/GUID-EF0096C9-A807-4C9C-A5EF-1B0DDE4C01A3.htmlSearch in Google Scholar
A. Papanikolaou, ‘Ship Design- Methodology of Preliminary Design, 2014, Springer Dordrecht, https://doi.org/10.1007/978-94-017-8751-2;Search in Google Scholar
G. Butler, ‘Guide to Ship Repair Estimates’, Oxford, 2000, Butterworth-Heinemann, Elsevier ISBN 0 7506 4834 1Search in Google Scholar
‘Made in China’ [online] available https://www.made-in-china.com/products-search/hot-china-products/Shipbuilding_Plate_Price.htmlSearch in Google Scholar
‘Steel Pipes and fittings, Shipbuilding steel price’ [online viewed 12.07.2023] available from https://www.sambhavpipes.com/shipbuilding-steel-plate.htmlSearch in Google Scholar
| 11 dic 2023