active roll resisting fins
简明释义
可操纵减摇器
英英释义
例句
1.The new yacht features advanced technology with active roll resisting fins (主动抗滚鳍) that enhance stability during rough sea conditions.
这艘新游艇配备了先进技术,拥有
2.The design team focused on optimizing the active roll resisting fins (主动抗滚鳍) to improve overall vessel efficiency.
设计团队专注于优化主动抗滚鳍(主动抗滚鳍),以提高整体船舶效率。
3.During the test, the vessel's active roll resisting fins (主动抗滚鳍) significantly reduced rolling motion.
在测试中,该船的主动抗滚鳍(主动抗滚鳍)显著减少了横摇运动。
4.With the integration of active roll resisting fins (主动抗滚鳍), the ship can maintain its course even in heavy swells.
通过集成主动抗滚鳍(主动抗滚鳍),该船即使在大浪中也能保持航向。
5.The captain praised the performance of the active roll resisting fins (主动抗滚鳍) for providing a smoother ride.
船长称赞主动抗滚鳍(主动抗滚鳍)的性能,提供了更平稳的航行体验。
作文
In the world of modern engineering, particularly in the field of aerospace and marine technology, innovations are crucial for enhancing performance and safety. One such innovation is the concept of active roll resisting fins, which plays a pivotal role in stabilizing vehicles during motion. These fins, often seen in aircraft and high-performance boats, are designed to counteract unwanted rolling motions that can occur due to various external forces such as wind or waves. The primary function of active roll resisting fins is to maintain balance and control, ensuring that the vehicle remains upright and stable even in challenging conditions.The mechanism behind active roll resisting fins involves advanced sensors and control systems that monitor the orientation and movement of the vehicle. When the system detects a tendency to roll, it activates the fins to create opposing forces that counteract this motion. This real-time adjustment allows for a smoother ride and reduces the risk of capsizing or losing control. In aviation, for instance, the use of active roll resisting fins can significantly enhance the flight experience by providing greater stability during turbulence.Moreover, the implementation of active roll resisting fins contributes to improved fuel efficiency. By maintaining a more stable position, vehicles can operate more efficiently, reducing drag and energy consumption. This is particularly important in an era where environmental concerns are at the forefront of technological advancements. Engineers are constantly looking for ways to reduce the carbon footprint of vehicles, and the integration of active roll resisting fins is one effective strategy to achieve this goal.In addition to their practical benefits, active roll resisting fins also represent a significant leap in the field of automation and control systems. The technology involved in these fins is a testament to how far we have come in understanding and manipulating physical forces. As we continue to explore new frontiers in transportation, the role of active roll resisting fins will likely expand, leading to even more innovative designs and applications.Furthermore, the research and development surrounding active roll resisting fins highlight the collaborative nature of modern engineering. Experts from various fields, including fluid dynamics, materials science, and computer engineering, work together to create these sophisticated systems. This interdisciplinary approach not only accelerates innovation but also fosters a deeper understanding of how different factors influence vehicle performance.In conclusion, active roll resisting fins are an essential component in the evolution of vehicle design and functionality. Their ability to enhance stability, improve fuel efficiency, and showcase advanced engineering principles makes them a fascinating subject of study. As we look towards the future, it is clear that technologies like active roll resisting fins will play a crucial role in shaping the next generation of safe and efficient transportation solutions.
在现代工程领域,特别是在航空航天和海洋技术领域,创新对于提升性能和安全性至关重要。其中一个创新概念是主动抗滚鳍片,它在运动过程中稳定车辆方面发挥着关键作用。这些鳍片常见于飞机和高性能船只,旨在抵消由于风或波浪等各种外部力量引起的多余滚动运动。主动抗滚鳍片的主要功能是保持平衡和控制,确保车辆在挑战性条件下保持直立和稳定。主动抗滚鳍片背后的机制涉及先进的传感器和控制系统,这些系统监测车辆的方向和运动。当系统检测到有倾向于滚动的趋势时,它会激活鳍片以产生相反的力,从而抵消这种运动。这种实时调整可以提供更平稳的行驶体验,并减少翻覆或失控的风险。例如,在航空领域,使用主动抗滚鳍片可以显著增强飞行体验,使其在颠簸期间提供更大的稳定性。此外,实施主动抗滚鳍片还有助于提高燃油效率。通过保持更稳定的位置,车辆可以更高效地运行,减少阻力和能源消耗。这在当今环境问题处于技术进步前沿的时代尤为重要。工程师们不断寻找降低车辆碳足迹的方法,而整合主动抗滚鳍片是实现这一目标的有效策略之一。除了实用好处之外,主动抗滚鳍片也代表了自动化和控制系统领域的一次重大飞跃。这些鳍片所涉及的技术证明了我们在理解和操控物理力量方面取得的进展。随着我们继续探索交通运输的新前沿,主动抗滚鳍片的作用可能会扩展,导致更具创新性的设计和应用。此外,围绕主动抗滚鳍片的研究和开发突显了现代工程的协作性质。来自流体动力学、材料科学和计算机工程等各个领域的专家共同努力创造这些复杂的系统。这种跨学科的方法不仅加速了创新,还促进了对不同因素如何影响车辆性能的更深入理解。总之,主动抗滚鳍片是车辆设计和功能演变中的一个基本组成部分。它们增强稳定性、提高燃油效率以及展示先进工程原理的能力使其成为一个引人入胜的研究主题。展望未来,可以清楚地看到,像主动抗滚鳍片这样的技术将在塑造下一代安全高效的交通解决方案中发挥关键作用。
相关单词
