Case Study: Wind-Assisted Ship Propulsion Performance Prediction, Routing, and Economic Modelling

Power & Propulsion Alternatives for Ships 2019 Pub Date : 2019-01-23 DOI:10.3940/RINA.PPA.2019.12

N. J. V. D. Kolk, G. Bordogna, J. Mason, P. Desprairies, A. Vrijdag

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引用次数: 9

Abstract

In this paper, a vessel model for the performance of wind-assisted ships is combined with a routing tool to assess the fuel savings available from the installation of both one and two Flettner rotors when travelling along a Great Circle Route path. This is combined with an economic analysis to assess commercial viability for these hybrid concepts. The case study is performed in collaboration with DAMEN shipyards, who have provided a design for a wind-assist concept to sail in the Baltic Sea, that, since January 2015, is an Emission Control Area where a sulphur limit content of 0.1 % is enforced on the ship fuels. Results for this case study are presented in terms of fuel savings and payback period analysis, where the reference case is an identical ship sailing without wind propulsors. For the 5,150 dwt general cargo vessel travelling at a speed of 10 knots, average fuel savings of 2.99% were obtained in the Baltic Sea for the single Flettner scenario, and 6.11% for the double Flettner scenario. A discussion of key engineering and design constraints for these ships is included.

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案例研究:风助船舶推进性能预测、路线和经济建模

在本文中，将风助船舶性能的船舶模型与路线工具相结合，以评估沿大圆航线行驶时安装一个和两个弗莱特纳转子所节省的燃料。这与经济分析相结合，以评估这些混合概念的商业可行性。该案例研究是与DAMEN造船厂合作进行的，DAMEN造船厂提供了在波罗的海航行的风辅助概念设计，自2015年1月以来，波罗的海是一个排放控制区，船舶燃料的硫含量限制为0.1%。本案例研究的结果是在燃料节约和投资回收期分析方面提出的，其中参考案例是一艘没有风力推进器的相同船舶航行。对于以10节航速行驶的5150载重吨普通货船，在波罗的海，单弗勒特纳方案平均节省2.99%的燃料，双弗勒特纳方案平均节省6.11%的燃料。讨论了这些船舶的关键工程和设计约束。

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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Power & Propulsion Alternatives for Ships 2019

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