foilborn propulsion

简明释义

水翼航行推进

英英释义

例句

1.The design team focused on optimizing foilborn propulsion to achieve higher efficiency.

设计团队专注于优化水翼推进以实现更高的效率。

2.The concept of foilborn propulsion has revolutionized the way we think about marine travel.

对于海洋旅行的思考方式，水翼推进的概念已经彻底改变。

3.Engineers are experimenting with foilborn propulsion systems for future racing boats.

工程师们正在为未来的赛车艇实验水翼推进系统。

4.Using foilborn propulsion, this vessel can glide above the water, minimizing fuel consumption.

使用水翼推进，这艘船可以在水面上滑行，最小化燃料消耗。

5.The latest yacht design utilizes foilborn propulsion to enhance speed and reduce drag.

最新的游艇设计利用水翼推进来提高速度并减少阻力。

作文

In recent years, the field of marine engineering has witnessed remarkable advancements, particularly with the introduction of innovative technologies that enhance the efficiency and performance of watercraft. One such technology that has garnered significant attention is foilborn propulsion, a method that utilizes hydrofoils to lift the hull of a vessel above the water's surface, thereby reducing drag and increasing speed. This technique not only improves fuel efficiency but also provides a smoother ride, making it an attractive option for both recreational and commercial vessels.The concept of foilborn propulsion is rooted in the principles of fluid dynamics. When a vessel is in motion, it displaces water, creating resistance that can slow it down. By employing hydrofoils—wing-like structures mounted beneath the waterline—foilborn propulsion allows the vessel to rise above the water, significantly decreasing the amount of water displaced and, consequently, the drag force acting against it. This phenomenon results in higher speeds and improved fuel consumption, which are critical factors in today's environmentally conscious world.One of the most notable applications of foilborn propulsion can be seen in the design of modern racing yachts. These high-performance boats utilize advanced foiling systems that enable them to 'fly' above the water at incredible speeds. The use of foilborn propulsion in competitive sailing not only enhances performance but also adds an exciting visual element to the sport, as spectators marvel at the sight of yachts seemingly gliding above the waves.Moreover, foilborn propulsion technology is not limited to recreational vessels; it has also found its way into commercial applications. Ferries and cargo ships equipped with hydrofoils can achieve faster transit times while consuming less fuel, which is a significant advantage in the competitive shipping industry. As fuel prices continue to rise and environmental regulations become more stringent, the adoption of foilborn propulsion in commercial shipping is likely to increase, paving the way for a more sustainable future in maritime transport.However, the implementation of foilborn propulsion is not without its challenges. The complexity of designing effective hydrofoil systems requires advanced engineering and precise calculations to ensure stability and control. Additionally, the initial costs of retrofitting existing vessels or building new ones with this technology can be substantial. Nevertheless, the long-term benefits of reduced fuel consumption and enhanced performance make foilborn propulsion a worthy investment for many operators.In conclusion, foilborn propulsion represents a significant leap forward in marine technology, offering numerous advantages in terms of speed, efficiency, and environmental sustainability. As the demand for faster and more fuel-efficient vessels continues to grow, it is likely that we will see further innovations and widespread adoption of this technology across various sectors of the maritime industry. The future of boating and shipping looks promising with foilborn propulsion leading the way towards a more efficient and eco-friendly maritime experience.

近年来，海洋工程领域见证了显著的进步，特别是随着创新技术的引入，这些技术提高了水上交通工具的效率和性能。其中一种备受关注的技术是foilborn propulsion（水翼推进），这种方法利用水翼将船体抬高到水面之上，从而减少阻力并增加速度。这种技术不仅改善了燃油效率，还提供了更平稳的航行体验，使其成为休闲和商业船只的一个有吸引力的选择。foilborn propulsion的概念根植于流体动力学的原理。当船只在运动时，它会排开水，产生阻力，这可能会减缓其速度。通过使用水翼——安装在水线下的翼状结构——foilborn propulsion使船只能够升高于水面，显著减少排开的水量，从而降低作用在其上的阻力。这一现象导致更高的速度和更好的燃油消耗，这在当今环保意识日益增强的世界中至关重要。foilborn propulsion最显著的应用之一可以在现代赛车帆船的设计中看到。这些高性能船只利用先进的水翼系统，使它们能够以惊人的速度“飞”过水面。在竞技帆船中使用foilborn propulsion不仅提升了性能，还为这项运动增添了令人兴奋的视觉元素，因为观众惊叹于帆船似乎在波浪上滑行的景象。此外，foilborn propulsion技术并不仅限于休闲船只；它也已经进入商业应用。配备水翼的渡轮和货船可以在消耗更少燃料的情况下实现更快的运输时间，这在竞争激烈的航运行业中具有显著优势。随着燃料价格的持续上涨和环境法规的日益严格，foilborn propulsion在商业航运中的采用可能会增加，为海洋运输的可持续未来铺平道路。然而，实施foilborn propulsion并非没有挑战。设计有效的水翼系统的复杂性需要先进的工程技术和精确的计算，以确保稳定性和控制。此外，改装现有船只或建造新船的初始成本可能相当高。然而，长期来看，减少燃料消耗和提高性能的好处使得foilborn propulsion对许多运营商来说是一项值得投资的技术。总之，foilborn propulsion代表了海洋技术的重大飞跃，在速度、效率和环境可持续性方面提供了许多优势。随着对更快和更节能船只的需求不断增长，我们很可能会看到这一技术在海洋工业各个部门的进一步创新和广泛采用。未来的航运和运输在foilborn propulsion的引领下，展现出更加高效和环保的海洋体验。