Identification of shipyard priorities in a multi-criteria decision-making environment through a transdisciplinary energy management framework: a real case study for a Turkish shipyard
Identification of shipyard priorities in a multi-criteria decision-making environment through a transdisciplinary energy management framework: a real case study for a Turkish shipyard
Ship building, as an energy-intensive sector, produces significant amounts of air emissions, including greenhouse gases. Most research in greenhouse gas reductions from shipping concentrates on the reduction in emissions during the operational phase. However, as emissions during ship operation are reduced, the construction and dismantling phases of ships are becoming increasingly important in the assessment of the life-cycle impact of ships. In this study, priorities for a Turkish shipyard to become energy efficient were identified by means of a semi-structured questionnaire and an interview. This was undertaken using Fuzzy Multi-Criteria Decision-Making methods, including the Fuzzy Analytical Hierarchy Process and Fuzzy Order of Preference by Similarity to Ideal Solution, which are part of a proposed systematic and transdisciplinary Energy Management Framework and System. By applying Multi-Criteria Decision-Making methods, this framework supports the shipyard’s decision makers to make rational and optimized decisions regarding energy sectors within their activities. Applying the framework has significant potential to help achieve good product quality while reducing costs and environmental impacts, and can thereby enhance the sustainability of shipping. Moreover, the framework can boost both business and socio-economic perspectives for the shipyard, and improve its reputation and competitiveness, in alignment with achieving the Nationally Determined Contributions of States under the Paris Agreement.
air emissions, decision making, energy management framework, energy policy, life cycle, shipbuilding, transdisciplinary, sustainable production, sustainable shipping
Vakili, Seyed Vahid
87fcd634-ca9f-466c-93b4-0432809e5287
Olcer, Aykut I.
9f3eb3f2-e217-4fd6-9159-afa261e71838
Schonborn, Alessandro
79cdb165-77c2-45f7-b0c5-f9094dc9e16b
15 October 2021
Vakili, Seyed Vahid
87fcd634-ca9f-466c-93b4-0432809e5287
Olcer, Aykut I.
9f3eb3f2-e217-4fd6-9159-afa261e71838
Schonborn, Alessandro
79cdb165-77c2-45f7-b0c5-f9094dc9e16b
Vakili, Seyed Vahid, Olcer, Aykut I. and Schonborn, Alessandro
(2021)
Identification of shipyard priorities in a multi-criteria decision-making environment through a transdisciplinary energy management framework: a real case study for a Turkish shipyard.
Journal of Marine Science and Engineering, 9 (10), [1132].
(doi:10.3390/jmse9101132).
Abstract
Ship building, as an energy-intensive sector, produces significant amounts of air emissions, including greenhouse gases. Most research in greenhouse gas reductions from shipping concentrates on the reduction in emissions during the operational phase. However, as emissions during ship operation are reduced, the construction and dismantling phases of ships are becoming increasingly important in the assessment of the life-cycle impact of ships. In this study, priorities for a Turkish shipyard to become energy efficient were identified by means of a semi-structured questionnaire and an interview. This was undertaken using Fuzzy Multi-Criteria Decision-Making methods, including the Fuzzy Analytical Hierarchy Process and Fuzzy Order of Preference by Similarity to Ideal Solution, which are part of a proposed systematic and transdisciplinary Energy Management Framework and System. By applying Multi-Criteria Decision-Making methods, this framework supports the shipyard’s decision makers to make rational and optimized decisions regarding energy sectors within their activities. Applying the framework has significant potential to help achieve good product quality while reducing costs and environmental impacts, and can thereby enhance the sustainability of shipping. Moreover, the framework can boost both business and socio-economic perspectives for the shipyard, and improve its reputation and competitiveness, in alignment with achieving the Nationally Determined Contributions of States under the Paris Agreement.
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jmse-09-01132-v4
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Accepted/In Press date: 11 October 2021
Published date: 15 October 2021
Keywords:
air emissions, decision making, energy management framework, energy policy, life cycle, shipbuilding, transdisciplinary, sustainable production, sustainable shipping
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Local EPrints ID: 478393
URI: http://eprints.soton.ac.uk/id/eprint/478393
PURE UUID: 8cd1b0ee-3436-45aa-95bd-cf1f0d5011d0
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Date deposited: 29 Jun 2023 16:56
Last modified: 17 Mar 2024 04:20
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Author:
Seyed Vahid Vakili
Author:
Aykut I. Olcer
Author:
Alessandro Schonborn
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