area of hydrofoil

简明释义

水翼面积

英英释义

例句

1.In racing scenarios, maximizing the area of hydrofoil 水翼的面积 can provide a competitive edge.

在比赛场景中，最大化水翼的面积可以提供竞争优势。

2.Adjusting the area of hydrofoil 水翼的面积 can significantly affect the performance of the vessel.

调整水翼的面积可以显著影响船只的性能。

3.Engineers are calculating the optimal area of hydrofoil 水翼的面积 for improved lift and reduced drag.

工程师们正在计算最佳的水翼的面积以提高升力并减少阻力。

4.The area of hydrofoil 水翼的面积 is critical for ensuring that the craft can take off efficiently.

确保飞行器能够高效起飞的关键是水翼的面积。

5.The design of the boat greatly depends on the area of hydrofoil 水翼的面积 to ensure stability at high speeds.

船只的设计在很大程度上依赖于水翼的面积以确保在高速下的稳定性。

作文

The concept of the area of hydrofoil is crucial in understanding how hydrofoils function and their applications in modern marine technology. A hydrofoil is a lifting surface that operates in water, similar to an airplane wing in the air. When a vessel with hydrofoils moves through the water at a certain speed, the hydrofoils generate lift, allowing the boat to rise above the water's surface, thereby reducing drag and increasing efficiency. The area of hydrofoil refers to the surface area of these lifting devices, which plays a significant role in determining the amount of lift generated. To grasp the importance of the area of hydrofoil, it is essential to consider the principles of fluid dynamics. The lift produced by a hydrofoil is directly related to its shape, angle of attack, and most importantly, its area. A larger area of hydrofoil can produce more lift at a given speed, which allows for better performance of the vessel. This is particularly important for high-speed crafts such as racing boats and ferries, where maximizing lift can lead to higher speeds and improved fuel efficiency.In practical terms, engineers must carefully calculate the area of hydrofoil when designing a vessel. If the area is too small, the hydrofoil may not generate enough lift, causing the vessel to remain submerged and face increased resistance from the water. Conversely, if the area is excessively large, it may create too much lift, leading to instability and difficulty in control. Thus, finding the optimal area of hydrofoil is a balance between performance and stability.Moreover, the area of hydrofoil is not just a static measurement; it can be influenced by various factors such as the speed of the vessel, the density of the water, and even environmental conditions like waves and currents. Therefore, advanced hydrofoil designs often include adjustable surfaces that allow for real-time modifications to the area of hydrofoil, enhancing adaptability and performance across different scenarios.The application of hydrofoils extends beyond recreational boating. They are increasingly used in commercial shipping, military vessels, and even in renewable energy sectors, such as wind turbine platforms. Understanding the area of hydrofoil is vital for engineers and designers in these fields, as it directly impacts the efficiency and effectiveness of their designs.In conclusion, the area of hydrofoil is a fundamental aspect of hydrofoil technology that influences lift generation, vessel performance, and overall efficiency. As technology advances, the study of hydrofoil design continues to evolve, making the understanding of the area of hydrofoil more critical than ever. By mastering this concept, engineers can contribute to the development of faster, more efficient vessels that can navigate our waters with minimal environmental impact, showcasing the importance of innovation in marine engineering.

“水翼面积”的概念在理解水翼的功能及其在现代海洋技术中的应用时至关重要。水翼是一种在水中运行的升力表面，类似于飞机机翼在空气中的作用。当带有水翼的船只以一定速度穿过水面时，水翼产生升力，使船只能够高于水面，从而减少阻力并提高效率。“水翼面积”是指这些升力装置的表面积，它在决定产生的升力量方面起着重要作用。要理解“水翼面积”的重要性，必须考虑流体动力学的原理。水翼产生的升力与其形状、攻角以及最重要的——其面积直接相关。较大的“水翼面积”可以在给定速度下产生更多的升力，这使得船只的性能更好。这对于高速船只如赛车和渡轮尤为重要，因为最大化升力可以提高速度和燃油效率。在实际操作中，工程师在设计船只时必须仔细计算“水翼面积”。如果面积太小，水翼可能无法产生足够的升力，导致船只保持在水下并面临水的阻力增加。相反，如果面积过大，可能会产生过多的升力，导致不稳定和控制困难。因此，找到最佳的“水翼面积”是在性能和稳定性之间的平衡。此外，“水翼面积”不仅仅是一个静态测量；它还会受到多种因素的影响，如船只的速度、水的密度，甚至是波浪和洋流等环境条件。因此，先进的水翼设计通常包括可调节的表面，允许实时调整“水翼面积”，增强在不同场景下的适应性和性能。水翼的应用超越了休闲航行。它们越来越多地用于商业航运、军事舰艇，甚至可再生能源领域，如风力涡轮机平台。理解“水翼面积”对这些领域的工程师和设计师至关重要，因为它直接影响到他们设计的效率和有效性。总之，“水翼面积”是水翼技术的基本方面，影响升力生成、船只性能和整体效率。随着技术的进步，水翼设计的研究不断发展，使得对“水翼面积”的理解比以往任何时候都更加关键。通过掌握这一概念，工程师可以为开发更快、更高效的船只做出贡献，使其能够以最小的环境影响在水域中航行，展示了海洋工程创新的重要性。