马格纳斯效应和弗莱特纳转子:未来远洋航运的潜在应用

P. Nuttall, John Kaitu’u
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引用次数: 18

摘要

航运是太平洋的生命线。目前所有的海运选择都是化石燃料驱动的,而且越来越不可持续。在全球范围内,一系列可再生能源技术正在兴起,并在商业航运中得到应用,包括风能、太阳能和生物燃料/气体。迄今为止,这些技术在为大洋洲发展替代能源解决办法方面很少受到注意,尽管运输是太平洋岛屿国家化石燃料的最大用户,而太平洋岛屿国家海上运输的适当技术的探索目前还处于萌芽阶段。安东·弗莱特纳在20世纪20年代发明并证明了利用马格努斯效应推进的弗莱特纳转子,作为减少燃料使用和提高商业蓝水航运船舶稳定性的有效方法。当时的低成本化石燃料和新兴的柴油船舶推进工程并没有看到这个想法在最初的原型之后取得进展。这项技术在20世纪80年代被短暂地重新审视过。在过去的十年里,一些领先的航运设计师和研究人员已经开始认真地重新研究弗莱特纳技术的现代应用,并取得了令人印象深刻的成果。这项技术审查记录了这项技术的文献,以便研究人员可以利用它来寻找潜在的方法,以减少各种船只大小的运输和捕鱼的海洋运输成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Magnus Effect and the Flettner Rotor: Potential Application for Future Oceanic Shipping
Shipping is the lifeline of the Pacific. All current sea-transport options are fossil fuel powered and increasingly unsustainable. Globally, a range of renewable energy technologies is emerging with application in commercial shipping, including wind, solar and bio- fuels/gases. Such technologies have, to date, received little attention in the development of alternative energy solutions for Oceania, despite transport being the largest user of fossil fuels by Pacific Island Countries (PICs) and exploration of appropriate technologies for PIC sea-transport is currently embryonic. Anton Flettner invented and proved the Flettner Rotor that utilises the Magnus effect for propulsion in the 1920s as an effective method of reducing fuel use and increasing ship stability for commercial blue water shipping. The then low cost of fossil fuels and the emerging diesel ship propulsion engineering did not see the idea progress past the initial prototypes. The technology was briefly revisited in the 1980s. In the past decade a number of leading shipping designers and researchers have begun seriously reinvestigating modern application of Flettner technology with impressive results. This technical review documents the literature of this technology to make it available to researchers seeking potential means for reducing Oceanic shipping costs for both transport and fishing at all levels of vessel size.
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