flapped hydrofoil

简明释义

带襟翼水翼船

英英释义

例句

1.The research focused on optimizing the angle of the flapped hydrofoil for maximum lift.

研究集中在优化可翻转水翼的角度以获得最大升力。

2.Engineers are testing a prototype with a flapped hydrofoil to enhance its performance in rough waters.

工程师们正在测试一种带有可翻转水翼的原型，以提高其在恶劣水域的性能。

3.The new boat design features a flapped hydrofoil that increases speed and stability.

这款新船的设计采用了可翻转水翼，提高了速度和稳定性。

4.The flapped hydrofoil allows the vessel to lift out of the water, reducing drag significantly.

这个可翻转水翼使得船只能够离开水面，显著降低阻力。

5.During the race, the team utilized a flapped hydrofoil to gain an edge over their competitors.

在比赛中，团队利用了可翻转水翼来获得竞争对手的优势。

作文

The concept of a flapped hydrofoil is quite fascinating, especially when we consider its applications in various fields such as marine engineering and aerodynamics. A flapped hydrofoil refers to a type of hydrofoil that incorporates flaps, which are movable surfaces that can change the lift characteristics of the foil. This innovative design allows for greater control and efficiency when navigating through water. In essence, a hydrofoil is a lifting surface, similar to an airplane wing, that operates underwater. As the boat moves forward, the hydrofoil generates lift, raising the vessel above the water's surface, which significantly reduces drag and increases speed. The addition of flaps to this system enhances its performance by allowing for adjustments in lift and drag during operation. One of the primary advantages of using a flapped hydrofoil is the improved maneuverability it offers. In traditional hydrofoils, once the foil is submerged and generating lift, any changes in speed or direction can lead to instability. However, with the integration of flaps, operators can make real-time adjustments to maintain optimal performance, regardless of changing conditions. This feature is particularly beneficial in competitive sailing and high-speed boating, where precision and responsiveness are crucial. Moreover, the environmental implications of flapped hydrofoils are noteworthy. As these systems can achieve higher speeds with reduced fuel consumption, they present a more sustainable option for marine transportation. With the global push for greener technologies, the adoption of flapped hydrofoils could play a significant role in reducing the carbon footprint of maritime activities. Research into flapped hydrofoils has also led to advancements in other areas, such as wind turbine technology. The principles of lift and drag that govern hydrofoils are applicable to wind turbines, where optimizing blade design can lead to increased energy efficiency. Engineers and scientists are continuously exploring how the innovations in flapped hydrofoil technology can be translated into other sectors, driving further advancements in renewable energy solutions. In conclusion, the flapped hydrofoil represents a significant advancement in marine technology, offering enhanced performance, improved maneuverability, and potential environmental benefits. As research and development continue, we can expect to see even more exciting applications of this technology in the future. The versatility of the flapped hydrofoil not only paves the way for faster and more efficient vessels but also opens up new avenues for innovation across various industries. Understanding and mastering the mechanics of flapped hydrofoils will undoubtedly play a crucial role in shaping the future of transportation and energy solutions.

“flapped hydrofoil”这个概念非常迷人，尤其是当我们考虑它在海洋工程和空气动力学等各个领域的应用时。“flapped hydrofoil”指的是一种水翼，它结合了襟翼，这是一种可移动的表面，可以改变翼的升力特性。这种创新设计允许在水中航行时实现更大的控制和效率。从本质上讲，水翼是一种类似于飞机机翼的升力表面，在水下运行。当船只向前移动时，水翼产生升力，将船只抬离水面，这显著减少了阻力并增加了速度。将襟翼添加到这个系统中，通过允许在操作过程中对升力和阻力进行调整，从而提高了性能。使用“flapped hydrofoil”的主要优点之一是它提供的改进的机动性。在传统的水翼中，一旦翼被淹没并产生升力，任何速度或方向的变化都可能导致不稳定。然而，通过整合襟翼，操作员可以实时调整以保持最佳性能，无论条件如何变化。这一特点在竞争帆船和高速船舶中尤为有利，因为精确性和响应能力至关重要。此外，“flapped hydrofoil”的环境影响也值得注意。由于这些系统能够以更高的速度实现更低的燃料消耗，因此它们为海洋运输提供了更可持续的选择。随着全球对绿色技术的推动，采用“flapped hydrofoil”可能在减少海洋活动的碳足迹方面发挥重要作用。对“flapped hydrofoil”的研究还推动了其他领域的进步，例如风力涡轮机技术。支配水翼的升力和阻力原理同样适用于风力涡轮机，其中优化叶片设计可以提高能量效率。工程师和科学家们不断探索如何将“flapped hydrofoil”技术的创新转化到其他部门，推动可再生能源解决方案的进一步发展。总之，“flapped hydrofoil”代表了海洋技术的一项重大进步，提供了增强的性能、改进的机动性和潜在的环境效益。随着研究和开发的继续，我们可以期待看到这一技术在未来更令人兴奋的应用。“flapped hydrofoil”的多功能性不仅为更快、更高效的船只铺平了道路，还为各个行业的创新开辟了新的途径。理解和掌握“flapped hydrofoil”的机制无疑将在塑造交通和能源解决方案的未来中发挥关键作用。