Energy‐related clean and green framework for shipbuilding community towards zero‐emissions: A strategic analysis from concept to case study: a strategic analysis from concept to case study
Energy‐related clean and green framework for shipbuilding community towards zero‐emissions: A strategic analysis from concept to case study: a strategic analysis from concept to case study
Shipping is looking to progressively develop into a zero-emissions industry, in agreement with pledges made under the Initial IMO Strategy on reduction of greenhouse gas emissions from ships, and its vision to phasing out greenhouse gas emissions as soon as possible during this century. International regulations currently focus on the design and operational phases of the industry, which carries the largest life-cycle climate impact of a ship. As the level of emissions from the operational phase is reduced, the inclusion of emissions from shipyards during construction, maintenance, and disposal becomes increasingly important. The main objective of this study is to improve energy efficiency and reduce air emissions in the shipbuilding industry through the development of an energy-management framework. A systematic literature review was used to define criteria for clean and green shipyards and to develop a novel, holistic, systematic, and transdisciplinary framework for energy management. The energy-management framework is aimed at creating a decision-support mechanism for complex situations, using a multiple criteria decision-making approach. The energy-management framework was applied to case studies of a Bangladeshi and an Italian shipyard. The potential implementation of the framework in yards of different sizes, types and geographical location demonstrates that it has the potential to improve energy management and thereby energy efficiency while increasing productivity and profitability in shipyards.
energy management framework, energy policy, interdisciplinary, life cycle, sustainable shipyard, zero-emissions
20624-20649
Vakili, Seyedvahid
87fcd634-ca9f-466c-93b4-0432809e5287
Olcer, Aykut, I.
9f3eb3f2-e217-4fd6-9159-afa261e71838
Schonborn, Alessandro
79cdb165-77c2-45f7-b0c5-f9094dc9e16b
Ballini, Fabio
bb2b4f13-fbd8-40a5-b542-c57489f776af
Anh Tuan Hoang,
7c8b966a-22d2-4d53-a6d2-2a591451ab05
18 October 2022
Vakili, Seyedvahid
87fcd634-ca9f-466c-93b4-0432809e5287
Olcer, Aykut, I.
9f3eb3f2-e217-4fd6-9159-afa261e71838
Schonborn, Alessandro
79cdb165-77c2-45f7-b0c5-f9094dc9e16b
Ballini, Fabio
bb2b4f13-fbd8-40a5-b542-c57489f776af
Anh Tuan Hoang,
7c8b966a-22d2-4d53-a6d2-2a591451ab05
Vakili, Seyedvahid, Olcer, Aykut, I., Schonborn, Alessandro, Ballini, Fabio and Anh Tuan Hoang,
(2022)
Energy‐related clean and green framework for shipbuilding community towards zero‐emissions: A strategic analysis from concept to case study: a strategic analysis from concept to case study.
International Journal of Energy Research, 46 (14), .
(doi:10.1002/er.7649).
Abstract
Shipping is looking to progressively develop into a zero-emissions industry, in agreement with pledges made under the Initial IMO Strategy on reduction of greenhouse gas emissions from ships, and its vision to phasing out greenhouse gas emissions as soon as possible during this century. International regulations currently focus on the design and operational phases of the industry, which carries the largest life-cycle climate impact of a ship. As the level of emissions from the operational phase is reduced, the inclusion of emissions from shipyards during construction, maintenance, and disposal becomes increasingly important. The main objective of this study is to improve energy efficiency and reduce air emissions in the shipbuilding industry through the development of an energy-management framework. A systematic literature review was used to define criteria for clean and green shipyards and to develop a novel, holistic, systematic, and transdisciplinary framework for energy management. The energy-management framework is aimed at creating a decision-support mechanism for complex situations, using a multiple criteria decision-making approach. The energy-management framework was applied to case studies of a Bangladeshi and an Italian shipyard. The potential implementation of the framework in yards of different sizes, types and geographical location demonstrates that it has the potential to improve energy management and thereby energy efficiency while increasing productivity and profitability in shipyards.
Text
Energy related clean and green framework for shipbuilding
- Accepted Manuscript
More information
Accepted/In Press date: 26 December 2021
e-pub ahead of print date: 17 January 2022
Published date: 18 October 2022
Keywords:
energy management framework, energy policy, interdisciplinary, life cycle, sustainable shipyard, zero-emissions
Identifiers
Local EPrints ID: 478419
URI: http://eprints.soton.ac.uk/id/eprint/478419
ISSN: 0363-907X
PURE UUID: 65c339ca-e6eb-498f-b2c3-9a674b78edcf
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Date deposited: 30 Jun 2023 16:41
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
Seyedvahid Vakili
Author:
Aykut, I. Olcer
Author:
Alessandro Schonborn
Author:
Fabio Ballini
Author:
Anh Tuan Hoang
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