Decarbonization of the Cargo Shipping Fleet

IF 0.5 4区工程技术 Q4 ENGINEERING, MARINE

Journal of Ship Production and Design Pub Date : 2022-06-29 DOI:10.5957/jspd.10210026

J. Chalfant, H. Kite-Powell, L. Bonfiglio, C. Chryssostomidis

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引用次数: 1

Abstract

In an effort to combat climate change, the International Maritime Organization (IMO) has set ambitious goals for the reduction of greenhouse gas emissions from ships, with a target of at least a 50% reduction of total annual greenhouse gas (GHG) emissions, including carbon, from 2008 levels by 2050, with a further goal of zero GHG emissions within this century. Numerous technologies are under development to address these new goals, but the implementation of these new technologies is quite uncertain. Cargo ship owners face the challenge of determining how to best employ and possibly upgrade the current fleet to meet interim goals while awaiting the maturation of future technologies. This article describes a methodology and computer code that provide a rapid assessment of the impact of various fuel-saving technologies on an existing cargo ship’s fuel consumption, thus providing the ship owner fundamental data indicating which upgrades and practices warrant further, more detailed investigation. According to the National Oceanic and Atmospheric Administration, the amount of carbon dioxide in the atmosphere has increased by 1.78 ppm per year on average since 1980, and the increase is accelerating. Through the 1980s and 1990s, the increase was around 1.5–1.6 ppm per year, but the growth rate has averaged 2.4 ppm per year since 2010 (Tans et al. 2020). Rising levels of carbon dioxide in the atmosphere adversely impact the environment in many ways. For example, increased levels of carbon dioxide dissolving in sea water increase the acidity of the oceans; as pH levels drop, organisms like oysters and corals have trouble maintaining their hard shells and skeletons made from calcium carbonate. If pH levels get too low, the calcium carbonate structures begin dissolving (NOAA 2020). Another example can be found in the NOAA Arctic Report Card in which each year shows an Arctic that is becoming warmer, less frozen, and more fragile; the 2020 report includes data on high land-surface air temperatures, low snow extent, low minimum sea-ice extent, and extreme wildfires (Thoman et al. 2020).

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货运船队的脱碳

为了应对气候变化，国际海事组织（IMO）制定了减少船舶温室气体排放的宏伟目标，目标是到2050年将包括碳在内的年度温室气体排放总量从2008年的水平至少减少50%，并进一步实现本世纪温室气体零排放的目标。为了实现这些新目标，许多技术正在开发中，但这些新技术的实施还很不确定。货船船东面临的挑战是，在等待未来技术成熟的同时，确定如何最好地利用并可能升级现有船队，以实现中期目标。本文描述了一种方法和计算机代码，可以快速评估各种节油技术对现有货船燃料消耗的影响，从而为船东提供基本数据，表明哪些升级和做法需要进一步、更详细的调查。根据美国国家海洋和大气管理局的数据，自1980年以来，大气中的二氧化碳含量平均每年增加1.78 ppm，而且正在加速增加。在20世纪80年代和90年代，增长率约为每年1.5–1.6 ppm，但自2010年以来，增长率平均为每年2.4 ppm（Tans等人，2020）。大气中二氧化碳含量的上升在许多方面对环境产生了不利影响。例如，溶解在海水中的二氧化碳含量增加，增加了海洋的酸度；随着pH值的下降，牡蛎和珊瑚等生物很难维持由碳酸钙制成的坚硬外壳和骨骼。如果pH值过低，碳酸钙结构就会开始溶解（NOAA 2020）。另一个例子可以在美国国家海洋和大气管理局的北极报告卡中找到，其中每年都显示北极正在变得越来越温暖、越来越少结冰、越来越脆弱；2020年的报告包括关于高陆地表面空气温度、低降雪范围、低最低海冰范围和极端野火的数据（Thoman等人，2020）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Ship Production and Design ENGINEERING, MARINE-

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Original and timely technical papers addressing problems of shipyard techniques and production of merchant and naval ships appear in this quarterly publication. Since its inception, the Journal of Ship Production and Design (formerly the Journal of Ship Production) has been a forum for peer-reviewed, professionally edited papers from academic and industry sources. As such it has influenced the worldwide development of ship production engineering as a fully qualified professional discipline. The expanded scope seeks papers in additional areas, specifically ship design, including design for production, plus other marine technology topics, such as ship operations, shipping economics, and safety. Each issue contains a well-rounded selection of technical papers relevant to marine professionals.