Calculation of categorical route width according to maritime traffic flow data in the Republic of Korea

IF 2.6 4区 工程技术 Q1 Engineering
Jeong-Seok Lee, Yong-Ung Yu
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引用次数: 0

Abstract

Offshore wind farms have emerged as an effective method for responding to the energy crisis. However, offshore wind power generation has been indiscriminately planned at sea, leading to interference with the traffic routes of merchant ships. Many countries and organisations have set buffer zone standards to ensure the safe navigation of passing vessels, but these standards differ widely. As a typical example, the standards of the International Maritime Organization (IMO) and those of the Confederation of European Shipmasters’ Associations (CESMA) are used to decide the route widths of vessels; however, they both have limitations, preventing their application to all sea areas. This study proposes a novel methodology to calculate the width of a route using distribution and line density analyses of 90% and 50% maritime traffic. First, four categorised maritime routes and gate lines are established to comparatively analyse the width of maritime traffic routes. Next, to ensure reliability-based route safety, the compliance of extracted maritime traffic route widths with the criteria established by the IMO and CESMA is verified. The selection of optimised widths for vessel traffic routes will ensure the safe navigation of maritime traffic and encourage the sustainable development of maritime spaces.
根据大韩民国海上交通流量数据计算分类航路宽度
海上风力发电场已成为应对能源危机的一种有效方法。然而,海上风电在海上恣意规划,干扰了商船的航行路线。许多国家和组织都制定了缓冲区标准,以确保过往船只的安全航行,但这些标准差别很大。作为典型的例子,国际海事组织(IMO)和欧洲船长协会联合会(CESMA)的标准被用来确定船舶的航线宽度;然而,它们都有局限性,阻碍了它们在所有海域的应用。本研究提出了一种新的方法,利用90%和50%海上交通的分布和线路密度分析来计算路线的宽度。首先,建立了四类海上航线和闸门线,比较分析了海上交通航线的宽度。接下来,为了确保基于可靠性的航路安全,验证提取的海上交通航路宽度是否符合IMO和CESMA制定的标准。船舶航路宽度的优化选择将确保海上交通的安全航行,并鼓励海洋空间的可持续发展。
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 Marine Engineering and Technology
Journal of Marine Engineering and Technology 工程技术-工程:海洋
CiteScore
5.20
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: The Journal of Marine Engineering and Technology will publish papers concerned with scientific and theoretical research applied to all aspects of marine engineering and technology in addition to issues associated with the application of technology in the marine environment. The areas of interest will include: • Fuel technology and Combustion • Power and Propulsion Systems • Noise and vibration • Offshore and Underwater Technology • Computing, IT and communication • Pumping and Pipeline Engineering • Safety and Environmental Assessment • Electrical and Electronic Systems and Machines • Vessel Manoeuvring and Stabilisation • Tribology and Power Transmission • Dynamic modelling, System Simulation and Control • Heat Transfer, Energy Conversion and Use • Renewable Energy and Sustainability • Materials and Corrosion • Heat Engine Development • Green Shipping • Hydrography • Subsea Operations • Cargo Handling and Containment • Pollution Reduction • Navigation • Vessel Management • Decommissioning • Salvage Procedures • Legislation • Ship and floating structure design • Robotics Salvage Procedures • Structural Integrity Cargo Handling and Containment • Marine resource and acquisition • Risk Analysis Robotics • Maintenance and Inspection Planning Vessel Management • Marine security • Risk Analysis • Legislation • Underwater Vehicles • Plant and Equipment • Structural Integrity • Installation and Repair • Plant and Equipment • Maintenance and Inspection Planning.
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