surface-piercing foil

简明释义

划水式水翼

英英释义

例句

1.Engineers are testing different designs of surface-piercing foils to optimize performance in various water conditions.

工程师们正在测试不同设计的表面穿透翼，以优化在各种水域条件下的性能。

2.The design of the surface-piercing foil is crucial for achieving maximum lift and minimizing wave resistance.

设计表面穿透翼对于实现最大升力和最小波浪阻力至关重要。

3.The surface-piercing foil on this hydrofoil boat allows it to glide above the water surface, reducing drag.

这艘水翼船上的表面穿透翼使其能够在水面上滑行，从而减少阻力。

4.Using a surface-piercing foil can significantly improve fuel efficiency for high-speed vessels.

使用表面穿透翼可以显著提高高速船只的燃油效率。

5.The new racing yacht features a state-of-the-art surface-piercing foil, which enhances its speed and stability.

这艘新型赛车游艇配备了最先进的表面穿透翼，提高了其速度和稳定性。

作文

The world of marine technology has seen significant advancements over the years, particularly in the design and functionality of various watercraft. One such innovation is the use of surface-piercing foil, a technology that has transformed the way boats and ships interact with water. A surface-piercing foil is a type of hydrofoil that extends above the water's surface while still being submerged to some extent. This unique design allows vessels to achieve greater speeds and improved efficiency by reducing drag and increasing lift. When a boat equipped with a surface-piercing foil gains speed, the foil generates lift, causing the hull to rise out of the water. This phenomenon not only minimizes resistance but also enhances stability, allowing for smoother rides even in choppy waters. The ability to pierce the surface while providing lift is what sets the surface-piercing foil apart from traditional hull designs. The application of surface-piercing foil technology is not limited to recreational boats; it has also found its place in competitive racing vessels. Many high-performance racing yachts utilize this technology to achieve remarkable speeds that were once thought impossible. By harnessing the power of hydrodynamics, these vessels can glide over the water, leaving competitors in their wake. Furthermore, the environmental benefits of using surface-piercing foil technology cannot be overlooked. As vessels become more efficient, they consume less fuel, leading to a reduction in greenhouse gas emissions. This aspect is particularly important in today’s context, where climate change and environmental sustainability are at the forefront of global discussions. While the advantages of surface-piercing foil technology are evident, it is essential to acknowledge the challenges it presents. The design and engineering of such foils require a deep understanding of fluid dynamics and materials science. Engineers must ensure that the foils are durable enough to withstand the forces exerted on them while maintaining optimal performance. Additionally, the cost of implementing surface-piercing foil systems can be significant, making it less accessible for smaller boat manufacturers. In conclusion, the introduction of surface-piercing foil technology has revolutionized marine engineering, offering numerous benefits in terms of speed, efficiency, and environmental impact. As research continues and technology evolves, we can expect to see even more innovative applications of this technology in the future. From recreational boating to competitive racing, the surface-piercing foil represents a leap forward in our ability to navigate the waters with grace and efficiency.

海洋技术领域近年来取得了显著进展，尤其是在各种水上交通工具的设计和功能方面。其中一种创新是使用表面穿透翼，这一技术改变了船只与水的互动方式。表面穿透翼是一种水翼，部分伸出水面，同时仍然浸没在水中。这种独特的设计使得船只能够通过减少阻力和增加升力来实现更高的速度和更好的效率。当装备有表面穿透翼的船只加速时，翼产生升力，使船体从水中抬起。这一现象不仅可以最小化阻力，还可以增强稳定性，即使在波浪汹涌的水域也能实现更平稳的航行。能够穿透水面并提供升力的能力使得表面穿透翼与传统船体设计截然不同。表面穿透翼技术的应用不仅限于休闲船只；它也在竞争性赛车船只中找到了位置。许多高性能赛车游艇利用这一技术实现了曾被认为不可能的惊人速度。通过利用流体动力学的力量，这些船只能够在水面上滑行，远远甩开竞争对手。此外，使用表面穿透翼技术的环境效益也不容忽视。随着船只变得更加高效，它们消耗的燃料减少，从而降低温室气体排放。在当今气候变化和环境可持续性成为全球讨论焦点的背景下，这一点尤为重要。尽管表面穿透翼技术的优势显而易见，但必须承认它所带来的挑战。此类翼的设计和工程需要对流体动力学和材料科学有深入了解。工程师必须确保这些翼足够耐用，以承受施加在其上的力量，同时保持最佳性能。此外，实施表面穿透翼系统的成本可能相当高，这使得较小的船舶制造商难以接触。总之，表面穿透翼技术的引入彻底改变了海洋工程，为速度、效率和环境影响方面带来了诸多好处。随着研究的持续进行和技术的发展，我们可以期待未来看到这一技术的更多创新应用。从休闲航行到竞技比赛，表面穿透翼代表着我们在优雅和高效地驾驭水域方面的一次飞跃。