minimum-drag hydrofoil

简明释义

最小阻力水翼

英英释义

例句

1.The research team tested various shapes of minimum-drag hydrofoils to find the most efficient design.

研究小组测试了多种形状的最小阻力水翼，以找到最有效的设计。

2.The new racing boat features a minimum-drag hydrofoil that allows it to glide effortlessly over the water.

这艘新型竞赛船配备了一个最小阻力水翼，使其能轻松滑过水面。

3.Engineers designed a minimum-drag hydrofoil to enhance the speed of the sailboat in competitive events.

工程师们设计了一种最小阻力水翼，以提高帆船在比赛中的速度。

4.With the implementation of a minimum-drag hydrofoil, the yacht achieved record-breaking speeds.

通过采用最小阻力水翼，这艘游艇达到了破纪录的速度。

5.Using a minimum-drag hydrofoil significantly reduces fuel consumption in high-speed vessels.

使用最小阻力水翼可以显著降低高速船只的燃料消耗。

作文

In the world of marine engineering, the design and optimization of vessels are crucial for enhancing their performance and efficiency. One of the most innovative concepts in this field is the minimum-drag hydrofoil, which plays a significant role in reducing water resistance and increasing speed. A minimum-drag hydrofoil is a specialized underwater wing that lifts a boat out of the water as it gains speed, allowing it to glide above the surface. This phenomenon not only minimizes drag but also improves fuel efficiency, making it an essential feature for modern racing boats and luxury yachts.The principle behind a minimum-drag hydrofoil lies in its unique shape and design. Unlike traditional hulls that displace water, hydrofoils create lift by generating a pressure difference between the upper and lower surfaces. As the vessel accelerates, the hydrofoil's shape allows it to cut through the water more efficiently, resulting in less energy being wasted on overcoming drag. This efficiency is particularly beneficial in competitive sailing, where every second counts.Moreover, the use of a minimum-drag hydrofoil can significantly enhance the stability of a vessel. When a boat is lifted above the water, it experiences less turbulence and is less affected by waves, leading to a smoother ride. This stability is advantageous not only for racing but also for recreational boating, as it provides a more comfortable experience for passengers.The environmental implications of using a minimum-drag hydrofoil are also noteworthy. By improving fuel efficiency, vessels equipped with hydrofoils can reduce their carbon footprint and contribute to more sustainable maritime practices. As the world becomes increasingly aware of the need for eco-friendly technologies, the adoption of hydrofoils represents a step towards greener boating solutions.However, designing an effective minimum-drag hydrofoil is not without challenges. Engineers must consider various factors, including the size and shape of the hydrofoil, the weight distribution of the vessel, and the intended operating speed. Computational fluid dynamics (CFD) simulations and wind tunnel testing are often employed to refine designs and ensure optimal performance.In conclusion, the minimum-drag hydrofoil is a remarkable advancement in marine technology that offers numerous benefits for speed, efficiency, and environmental sustainability. As research and development continue in this area, we can expect to see more vessels utilizing hydrofoil technology, transforming the way we navigate our waters. Whether it is for competitive racing or leisurely cruising, the future of boating looks promising with the integration of minimum-drag hydrofoils into modern designs.

在海洋工程的世界中，船只的设计和优化对于提高其性能和效率至关重要。在这个领域中，一个最具创新性的概念是最小阻力水翼，它在减少水阻力和提高速度方面发挥着重要作用。最小阻力水翼是一种专门的水下翼，当船只加速时，它将船只抬离水面，使其能够在水面上滑行。这一现象不仅最小化了阻力，还改善了燃油效率，使其成为现代赛车船和豪华游艇的重要特征。最小阻力水翼的原理在于其独特的形状和设计。与传统船体不同，水翼通过在上下表面之间产生压力差来产生升力。当船只加速时，水翼的形状使其能够更有效地切割水面，从而减少克服阻力所浪费的能量。这种效率在竞争帆船中尤为重要，因为每一秒都至关重要。此外，使用最小阻力水翼还可以显著增强船只的稳定性。当船只被抬出水面时，它经历的湍流较少，并且受到波浪的影响较小，从而带来更平稳的航行。这种稳定性不仅对比赛有利，而且对休闲航行也有好处，因为它为乘客提供了更舒适的体验。使用最小阻力水翼的环境影响也值得注意。通过提高燃油效率，配备水翼的船只可以减少其碳足迹，并促进更可持续的海洋实践。随着世界越来越意识到需要环保技术，水翼的采用代表着朝着更绿色航海解决方案迈出的一步。然而，设计一个有效的最小阻力水翼并非没有挑战。工程师必须考虑各种因素，包括水翼的大小和形状、船只的重量分布以及预期的操作速度。计算流体动力学（CFD）模拟和风洞测试通常用于完善设计并确保最佳性能。总之，最小阻力水翼是海洋技术中的一项显著进步，提供了速度、效率和环境可持续性的众多好处。随着这一领域的研究和开发不断推进，我们可以期待看到更多船只利用水翼技术，改变我们航行水域的方式。无论是竞争性比赛还是休闲巡航，随着最小阻力水翼融入现代设计，航海的未来看起来都充满希望。