reaction rudder

简明释义

反应舵(特殊设计的舵面曲线

英英释义

例句

1.The design of the reaction rudder (反应舵) minimizes drag and improves fuel efficiency.

该反应舵（reaction rudder）的设计减少了阻力，提高了燃油效率。

2.Advanced vessels use a reaction rudder (反应舵) for enhanced control during high-speed maneuvers.

先进的船只使用反应舵（reaction rudder）以增强高速机动时的控制能力。

3.The captain relied on the reaction rudder (反应舵) to navigate through narrow straits.

船长依靠反应舵（reaction rudder）在狭窄的海峡中航行。

4.In rough seas, the reaction rudder (反应舵) allows for quicker directional changes.

在恶劣海况下，反应舵（reaction rudder）允许更快的方向变化。

5.The ship's maneuverability improved significantly after installing the new reaction rudder (反应舵).

安装了新的反应舵（reaction rudder）后，船只的机动性显著提高。

作文

The concept of a reaction rudder is crucial in the field of naval engineering and maritime navigation. It refers to a specific type of control surface used on ships and submarines to enhance maneuverability. The reaction rudder operates by redirecting water flow to create a force that helps the vessel change direction more efficiently. Unlike traditional rudders, which primarily rely on the forward motion of the ship, reaction rudders can be adjusted to provide better control at lower speeds or even when stationary.One of the primary advantages of using a reaction rudder is its ability to improve the turning capabilities of a vessel. This is particularly important for large ships that may struggle to navigate tight spaces or make sharp turns. By utilizing a reaction rudder, these vessels can achieve a tighter turning radius, allowing them to maneuver more effectively in crowded ports or narrow waterways.In addition to improving maneuverability, reaction rudders also contribute to the overall safety of maritime operations. In emergency situations, the enhanced control offered by a reaction rudder can make a significant difference. For instance, if a vessel needs to avoid a collision or navigate away from hazardous conditions, having a reaction rudder allows for quicker and more precise adjustments to the ship's course.Moreover, the design of reaction rudders often incorporates advanced technology, such as hydraulic systems or electronic controls, which further enhances their responsiveness. This technological integration means that modern vessels equipped with reaction rudders can be operated with greater precision, providing the crew with better feedback and control over the ship’s movements.The importance of reaction rudders extends beyond just individual vessels; they play a critical role in the efficiency of maritime transportation as a whole. With the global shipping industry continually expanding, the need for ships that can navigate efficiently and safely in various conditions has never been greater. By incorporating reaction rudders, shipping companies can optimize their fleet's performance, reducing fuel consumption and minimizing the risk of accidents.Furthermore, the application of reaction rudders is not limited to commercial shipping. They are also utilized in military vessels, where agility and quick response times are vital. In naval operations, the ability to execute rapid maneuvers can be the difference between success and failure during missions. Thus, the implementation of reaction rudders in military ships enhances their operational capabilities significantly.In conclusion, the reaction rudder is an innovative solution that has transformed the way vessels navigate through water. Its ability to provide enhanced maneuverability, improve safety, and increase efficiency makes it an invaluable component in modern maritime engineering. As technology continues to advance, we can expect to see further developments in reaction rudder designs, leading to even greater improvements in how ships operate on the water. Understanding the significance of reaction rudders is essential for anyone interested in the future of maritime navigation and engineering.

“反应舵”的概念在海洋工程和航海领域至关重要。它指的是一种特定类型的控制面，用于船只和潜艇，以增强其机动性。“反应舵”通过重新导向水流来产生一种力，帮助船只更有效地改变方向。与传统舵不同，传统舵主要依赖于船只的前进运动，“反应舵”可以调整，以便在低速甚至静止时提供更好的控制。使用“反应舵”的主要优点之一是它能够改善船只的转向能力。这对于那些在狭窄空间或进行急转弯时可能会遇到困难的大型船只尤为重要。通过利用“反应舵”，这些船只能够实现更紧凑的转弯半径，从而使其在拥挤的港口或狭窄的水道中更有效地操控。除了改善机动性外，“反应舵”还对海洋操作的整体安全性作出了贡献。在紧急情况下，“反应舵”所提供的增强控制可以产生显著差异。例如，如果一艘船需要避免碰撞或远离危险情况，拥有“反应舵”可以使船只的航向进行更快、更精确的调整。此外，“反应舵”的设计通常结合了先进技术，如液压系统或电子控制，进一步增强了其响应能力。这种技术整合意味着，现代装备有“反应舵”的船只可以以更高的精度操作，为船员提供更好的反馈和对船只运动的控制。“反应舵”的重要性不仅限于单个船只；它们在整个海洋运输效率中也发挥着关键作用。随着全球航运业不断扩张，对能够在各种条件下高效、安全航行的船只的需求从未如此迫切。通过结合“反应舵”，航运公司可以优化其舰队的性能，减少燃料消耗并将事故风险降到最低。此外，“反应舵”的应用不限于商业航运。它们也被用于军舰，在那里灵活性和快速反应时间至关重要。在海军行动中，执行快速机动的能力可能是任务成功与失败之间的区别。因此，在军舰上实施“反应舵”显著增强了其作战能力。总之，“反应舵”是一种创新解决方案，改变了船只在水中航行的方式。它能够提供增强的机动性、提高安全性和增加效率，使其成为现代海洋工程中不可或缺的组成部分。随着技术的不断进步，我们可以期待看到“反应舵”设计的进一步发展，从而在船只的操作中带来更大的改善。理解“反应舵”的重要性对于任何对航海导航和工程未来感兴趣的人来说都是必不可少的。