References
- Cucinotta F, Raffaele M, Salmeri F, Sfravara F. 2021. A comparative Life Cycle Assessment of two sister cruise ferries with Diesel and Liquefied Natural Gas machinery systems. Appl Ocean Res. 112:102705. doi:10.1016/j.apor.2021.102705.
- Demirer GN. 2017. Life cycle assessment. Practical Life-Cycle Analysis Guidelines and Examples of Life-Cycle Analysis for Businesses and the Public in the EU Process.
- Favi C, Germani M, Campi F, Mandolini M, Manieri S, Marconi M, Vita A. 2018. Life cycle model and metrics in shipbuilding: how to use them in the preliminary design phases. Procedia CIRP. 69:523–528. doi:10.1016/j.procir.2017.11.071.
- Ferreira J, Jones D, Esteves B, Cruz-Lopes L, Pereira H, Domingos I. 2021. Life cycle assessment of maritime pine wood: a Portuguese case study. J Sustain For. 40:431–445. doi:10.1080/10549811.2020.1768871.
- Florin N, Cătălin P, Haralambie B. (Eds.). 2014. Applications of Life Cycle Assessment (LCA) in Shipping Industry, Stef92 technology.
- Gilbert P, Walsh C, Traut M, Kesieme U, Pazouki K, Murphy A. 2018. Assessment of full life-cycle air emissions of alternative shipping fuels. Clean Prod. 172:855–866. doi:10.1016/j.jclepro.2017.10.165.
- IMO GBS. 2010. Resolution MSC.287 (87) adoption of the international goal-based ship construction standards for bulk carriers and oil tankers. International Maritime Organization.
- IMO. 2021. Fourth IMO GHG Study 2020 – Full report and annexes, London.
- ISO. 2006. Environmental management — life cycle assessment — principles and framework. International Organization for Standardization.
- Jang H, Jang Y, Jeong B, Cho N-K. 2021. Comparative life cycle assessment of marine insulation materials. J Mar Sci Eng. 9:1099. doi:10.3390/jmse9101099.
- Kannangara M, Bensebaa F, Vasudev M. 2021. An adaptable life cycle greenhouse gas emissions assessment framework for electric, hybrid, fuel cell and conventional vehicles: effect of electricity mix, mileage, battery capacity and battery chemistry in the context of Canada. J Clean Prod. 317:128394. doi:10.1016/j.jclepro.2021.128394.
- Mandal NR. 2017. Ship construction and welding. Singapore: Springer Singapore.
- Mondello G, Salomone R, Saija G, Lanuzza F, Gulotta TM. 2021. Life cycle assessment and life cycle costing for assessing maritime transport: A comprehensive literature review. Marit Policy Manag. 43:1–21. doi:10.1080/03088839.2021.1972486.
- OECD. 2010. Environmental and climate change issues in the shipbuilding industry.
- Önal M, Neşer G. 2018. End-of-life alternatives of glass reinforced polyester boat hulls compared by LCA. Adv Compos Lett. 27:134–141. doi:10.1177/096369351802700402
- Önal M, Neşer G, Gürsel KT. 2021. Environmental impacts of steel ship hulls building and recycling by life cycle assessment (LCA). Sh Offshore Struct. 16:1061–1066. doi:10.1080/17445302.2020.1816706.
- Pulli J, Heikkila J, Kosomaa L. 2013. Designing an environmental performance indicator for shipbuilding and ship dismantling.
- Safa A, Celebi UB. 2011. Green ship: New ideas for environmentally friendly ships. 1st lnternational Conference on Maritime Technology.
- Sirisalee P, Ashby MF, Parks GT, Clarkson PJ. 2004. Multi-criteria material selection in engineering design. Adv Eng Mater. 6:84–92. doi:10.1002/adem.200300554.
- Thibaut T, Laurent M, Yves P, Erick P, Guillaume J. 2010. A life cycle approach to shipbuilding and ship operation.
- Turkish Chamber of Shipping. 2021. Maritime sector report 2021, Istanbul.
- Wang H, Boulougouris E, Theotokatos G, Zhou P, Priftis A, Shi G. 2021. Life cycle analysis and cost assessment of a battery powered ferry. Ocean Eng. 241:110029. doi:10.1016/j.oceaneng.2021.110029