foilborne seakeeping
简明释义
水翼状态耐波性
英英释义
例句
1.The research team published a paper on the effects of foilborne seakeeping on fuel efficiency.
研究小组发表了一篇关于foilborne seakeeping对燃油效率影响的论文。
2.Engineers are testing the foilborne seakeeping capabilities of the latest high-speed vessel.
工程师正在测试最新高速船只的foilborne seakeeping能力。
3.The new yacht design focuses on enhancing foilborne seakeeping to ensure a smoother ride in rough waters.
新的游艇设计专注于提高foilborne seakeeping,以确保在恶劣水域中更平稳的航行。
4.A key feature of the new trimaran is its advanced foilborne seakeeping technology.
新型三体船的一个关键特点是其先进的foilborne seakeeping技术。
5.With improved foilborne seakeeping, the catamaran can handle larger waves without losing stability.
通过改善foilborne seakeeping,这艘双体船能够在不失去稳定性的情况下应对更大的波浪。
作文
The advancement of marine technology has led to the development of various innovative methods for improving vessel performance in challenging sea conditions. One such method is known as foilborne seakeeping, which refers to the ability of a vessel to maintain stability and comfort while moving through waves by utilizing hydrofoils. Hydrofoils are wing-like structures that lift the hull of the boat above the water's surface, reducing drag and enhancing speed and efficiency. This technology not only improves the overall speed of the vessel but also significantly minimizes the impact of waves on the ride quality.In traditional boat designs, vessels often experience significant pitching and rolling when navigating through rough waters. These motions can lead to discomfort for passengers and crew, as well as increased wear and tear on the vessel itself. However, with foilborne seakeeping technology, the hydrofoils create lift, allowing the boat to glide over the waves rather than plowing through them. This results in a smoother ride, less energy consumption, and enhanced safety.The concept of foilborne seakeeping is particularly advantageous for high-speed crafts, such as racing yachts and military vessels, where performance and agility are crucial. By employing hydrofoils, these vessels can achieve higher speeds while maintaining stability, thus improving their operational effectiveness. Additionally, this technology opens up new possibilities for sustainable maritime transport, as vessels equipped with hydrofoils can operate more efficiently, leading to reduced fuel consumption and lower emissions.Moreover, the implementation of foilborne seakeeping requires careful consideration of design and engineering. The positioning and shape of the hydrofoils are critical factors that influence the vessel's performance. Engineers must conduct extensive simulations and testing to optimize these parameters, ensuring that the vessel can handle various sea states effectively. As research in this area continues, we can expect to see even more refined designs that further enhance the benefits of this technology.In conclusion, foilborne seakeeping represents a significant innovation in naval architecture, offering numerous advantages in terms of speed, efficiency, and comfort. As the maritime industry continues to evolve, the integration of hydrofoil technology will likely play a pivotal role in shaping the future of vessel design. With ongoing advancements, we can anticipate a new era of seafaring that prioritizes both performance and environmental sustainability. The exploration of foilborne seakeeping not only enhances our understanding of marine dynamics but also paves the way for safer and more efficient travel across our oceans.
海洋技术的进步导致了各种创新方法的发展,以改善船只在恶劣海况下的性能。其中一种方法被称为foilborne seakeeping,即指船只利用水翼在波浪中保持稳定和舒适的能力。水翼是类似于翅膀的结构,可以将船体抬高于水面,减少阻力,提高速度和效率。这项技术不仅提高了船只的整体速度,还显著减少了波浪对乘坐质量的影响。在传统船只设计中,船只在穿越汹涌水域时往往会经历显著的俯仰和横摇。这些运动可能导致乘客和船员的不适,以及对船只本身的磨损增加。然而,采用foilborne seakeeping技术后,水翼产生升力,使船只能够滑过波浪,而不是冲破它们。这带来了更平稳的航行,降低了能耗,并增强了安全性。foilborne seakeeping概念对于高速船舶尤其有利,例如赛车游艇和军舰,在这些情况下,性能和灵活性至关重要。通过采用水翼,这些船只可以在保持稳定性的同时达到更高的速度,从而提高其操作效率。此外,这项技术为可持续的海洋运输开辟了新的可能性,因为配备水翼的船只可以更有效地运行,减少燃料消耗和排放。此外,实施foilborne seakeeping需要仔细考虑设计和工程。水翼的位置和形状是影响船只性能的关键因素。工程师必须进行广泛的模拟和测试,以优化这些参数,确保船只能够有效应对各种海况。随着该领域研究的持续深入,我们可以期待看到更精细的设计,进一步增强这项技术的优势。总之,foilborne seakeeping代表了海军建筑领域的一项重大创新,在速度、效率和舒适性方面提供了众多优势。随着海洋行业的不断发展,水翼技术的整合可能在塑造未来船只设计中发挥关键作用。随着不断的进步,我们可以期待一个优先考虑性能和环境可持续性的航海新时代。对foilborne seakeeping的探索不仅增强了我们对海洋动力学的理解,也为我们在海洋上更安全、更高效的旅行铺平了道路。
