active roll resisting fins

简明释义

可操纵减摇鳍

英英释义

例句

1.In competitive sailing, active roll resisting fins provide an edge by improving crew comfort and performance.

在竞技帆船中，主动抗滚鳍通过提高船员的舒适度和表现提供了竞争优势。

2.The yacht was equipped with active roll resisting fins to enhance stability during rough seas.

这艘游艇配备了主动抗滚鳍以增强在恶劣海况下的稳定性。

3.The engineers designed active roll resisting fins to automatically adjust based on the vessel's movement.

工程师们设计了主动抗滚鳍，可以根据船只的运动自动调整。

4.The research showed that active roll resisting fins can reduce fuel consumption by minimizing rolling.

研究表明，主动抗滚鳍通过最小化摇摆可以减少燃油消耗。

5.With the integration of active roll resisting fins, the ship experienced significantly less rolling motion.

通过集成主动抗滚鳍，船只的摇摆运动显著减少。

作文

In the world of modern marine engineering, the pursuit of stability and performance in vessels has led to the development of various innovative technologies. One such advancement is the implementation of active roll resisting fins, a system designed to enhance the stability of ships and boats while they navigate through turbulent waters. These fins play a crucial role in minimizing the rolling motion that can occur due to waves, wind, and other environmental factors. By understanding how active roll resisting fins work, we can appreciate their significance in maritime safety and efficiency.The principle behind active roll resisting fins is relatively straightforward. These fins are mounted on the hull of a vessel and are capable of adjusting their angle in response to the ship's movement and external conditions. When a boat begins to roll to one side, the active roll resisting fins can be tilted to create hydrodynamic forces that counteract this motion. This active adjustment allows the fins to respond dynamically to changing conditions, providing real-time stabilization that passive systems cannot achieve.One of the key advantages of using active roll resisting fins is their ability to significantly reduce the amplitude of rolling motions. This reduction not only enhances the comfort of passengers and crew but also improves the overall safety of the vessel. Excessive rolling can lead to cargo shifting, equipment damage, and even loss of control in severe cases. Therefore, by incorporating active roll resisting fins, shipbuilders can create vessels that are more resilient to adverse conditions.Moreover, the integration of active roll resisting fins contributes to improved fuel efficiency. When a vessel rolls excessively, it requires more power to maintain its course and speed, leading to increased fuel consumption. With the stabilization provided by these fins, the vessel can operate more efficiently, reducing fuel costs and minimizing its environmental impact. This is particularly important in an era where sustainability is a growing concern for the maritime industry.The technology behind active roll resisting fins continues to evolve, with advancements in sensors and control systems allowing for even greater precision in their operation. Modern vessels are equipped with sophisticated algorithms that analyze real-time data from the environment and the ship's movements. This information is used to optimize the angle of the fins, ensuring maximum effectiveness in stabilizing the vessel. As a result, the future of marine transportation looks promising with the continued refinement of this technology.In conclusion, active roll resisting fins represent a significant leap forward in marine engineering, offering enhanced stability, safety, and fuel efficiency for vessels navigating challenging waters. Their ability to actively counteract rolling motions makes them an invaluable asset in modern ship design. As the maritime industry continues to innovate, the importance of such technologies will only grow, paving the way for safer and more efficient maritime travel. Understanding the functionality and benefits of active roll resisting fins is essential for anyone involved in marine operations or engineering, highlighting their critical role in the future of maritime safety and efficiency.

在现代海洋工程的世界中，追求船舶的稳定性和性能促使了各种创新技术的发展。其中一个重要的进展是实施主动抗横滚鳍片，这是一种旨在提高船只在波涛汹涌的水域航行时稳定性的系统。这些鳍片在减少由于波浪、风和其他环境因素引起的横滚运动方面发挥着至关重要的作用。通过理解主动抗横滚鳍片的工作原理，我们可以欣赏到它们在海事安全和效率中的重要性。主动抗横滚鳍片的原理相对简单。这些鳍片安装在船体上，能够根据船只的运动和外部条件调整其角度。当船只开始向一侧横滚时，主动抗横滚鳍片可以倾斜，以产生与这种运动相对抗的水动力。这种主动调整使得鳍片能够动态响应变化的条件，提供实时的稳定性，这是被动系统无法实现的。使用主动抗横滚鳍片的一个主要优势是它们能够显著减少横滚运动的幅度。这种减少不仅提高了乘客和船员的舒适度，还改善了船只的整体安全性。过度的横滚可能导致货物移位、设备损坏，甚至在严重情况下失去控制。因此，通过整合主动抗横滚鳍片，造船商可以制造出对不利条件更具韧性的船只。此外，主动抗横滚鳍片的整合还促进了燃油效率的提高。当船只过度横滚时，它需要更多的动力来维持航向和速度，导致燃油消耗增加。借助这些鳍片提供的稳定性，船只可以更高效地运行，从而降低燃油成本并最小化对环境的影响。在当今可持续发展日益受到关注的时代，这一点尤为重要。主动抗横滚鳍片背后的技术不断发展，传感器和控制系统的进步使其操作的精确性更高。现代船只配备了复杂的算法，分析来自环境和船只运动的实时数据。这些信息用于优化鳍片的角度，确保在稳定船只方面的最大有效性。因此，随着这一技术的持续完善，海洋运输的未来看起来非常光明。总之，主动抗横滚鳍片代表了海洋工程的重要飞跃，为在挑战性水域航行的船只提供了增强的稳定性、安全性和燃油效率。它们主动抵消横滚运动的能力使其成为现代船舶设计中不可或缺的资产。随着海事行业的不断创新，这类技术的重要性只会增加，为更安全、更高效的海洋旅行铺平道路。理解主动抗横滚鳍片的功能和优点对于任何参与海洋操作或工程的人来说都是至关重要的，突显了它们在未来海事安全和效率中的关键作用。