LIFE-CYCLE CO2 EMISSIONS OF BULK CARRIERS: A COMPARATIVE STUDY

IF 0.7 4区 工程技术 Q4 ENGINEERING, MARINE International Journal of Maritime Engineering Pub Date : 2021-12-13 DOI:10.5750/ijme.v152ia3.833
G. A. Gratsos, H. Psaraftis, P. Zachariadis
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引用次数: 20

Abstract

In order to maintain shipping capacity to serve seaborne trade, new ships have to be built to replace those scrapped. The cost of building, manning, operating, maintaining and repairing a ship throughout its life is borne by society at large through market mechanisms. Gratsos and Zachariadis (2005) had investigated through a cost/benefit analysis how the average annual cost of ship transport varies with the corrosion additions elected at the design stage. The results of that paper clearly indicated that ships built with sufficient corrosion allowances, truly adequate for the ship’s design life, have a lower life cycle cost per annum despite the fact that such ships would carry a slightly smaller quantity of cargo. Furthermore the safety and environmental benefits due to the reduced repairs and extended lifetime of such ships were briefly discussed. The debate of how “robust” a ship should be was also transferred to IMO in the context of Goal Based Standards following a submission by Japan which stated that the increased steel weight of a more robust ship will result in increased CO2 emissions due to a reduced cargo carrying capacity. Greece replied by submitting a summary of the aforementioned paper and preliminary estimations on Life cycle CO2 emissions disputing the Japanese contentions. However, taking onboard the challenge, an update is provided in the present paper, using the final Common Structural Rules (CSR) of the International Association of Classification Societies (IACS) bulk carrier corrosion margins and taking into account the major environmental implications of the heavier ship scantlings for two bulk carrier size brackets, Panamax and Handymax. The results show that the more robust ships would produce less CO2 emissions over their lifetime.
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散货船生命周期CO2排放的比较研究
为了保持为海运贸易服务的航运能力,必须建造新的船只来取代那些报废的船只。船舶的建造、人员配备、运营、维护和维修成本由整个社会通过市场机制承担。Gratsos和Zachariadis(2005)通过成本/效益分析研究了船舶运输的平均年成本如何随着设计阶段选择的腐蚀添加剂而变化。该文件的结果清楚地表明,建造有足够腐蚀裕量的船舶,确实足以满足船舶的设计寿命,尽管这些船舶运载的货物数量略少,但每年的寿命周期成本较低。此外,还简要讨论了此类船舶维修次数减少和使用寿命延长所带来的安全和环境效益。关于船舶应如何“坚固”的辩论也在基于目标的标准的背景下转移到了海事组织,此前日本提交了一份文件,其中指出,由于货运能力降低,更坚固的船舶的钢重增加将导致二氧化碳排放增加。希腊的答复是提交了上述论文的摘要和对日本争论的生命周期二氧化碳排放量的初步估计。然而,考虑到船上的挑战,本文使用国际船级社协会(IACS)散货船腐蚀裕度的最终通用结构规则(CSR)进行了更新,并考虑到巴拿马型和Handymax型两种散货船尺寸支架的较重船舶尺寸对环境的主要影响。结果表明,更坚固的船只在其使用寿命内产生的二氧化碳排放量会更少。
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来源期刊
CiteScore
1.20
自引率
0.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: The International Journal of Maritime Engineering (IJME) provides a forum for the reporting and discussion on technical and scientific issues associated with the design and construction of commercial marine vessels . Contributions in the form of papers and notes, together with discussion on published papers are welcomed.
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