suspended rudder

简明释义

吊舵

英英释义

例句

1.Engineers are testing a new model of the suspended rudder 悬挂舵 for improved performance.

工程师们正在测试一种新的悬挂舵模型，以提高性能。

2.The ship's maneuverability was compromised due to the failure of the suspended rudder 悬挂舵.

由于悬挂舵的故障，船只的机动性受到影响。

3.During the storm, the captain had to rely on the auxiliary engines since the suspended rudder 悬挂舵 was damaged.

在暴风雨中，船长不得不依靠辅助发动机，因为悬挂舵受损了。

4.The suspended rudder 悬挂舵 system needs regular maintenance to ensure safety.

为了确保安全，悬挂舵系统需要定期维护。

5.The design of the suspended rudder 悬挂舵 allows for better control at high speeds.

这种悬挂舵的设计使得在高速时更易于控制。

作文

The concept of a suspended rudder is often used in the context of naval architecture and marine engineering. A suspended rudder refers to a type of rudder that is not directly attached to the hull of the ship but is instead supported by a system that allows it to move freely, providing enhanced maneuverability and control over the vessel's direction. This innovative design can significantly improve a ship's performance, especially in challenging maritime conditions.In recent years, the maritime industry has seen an increasing interest in advanced steering technologies, such as the suspended rudder. Traditional rudders are typically fixed to the stern of the ship, which can limit their effectiveness in certain situations. By contrast, a suspended rudder can be adjusted dynamically, allowing for a more responsive and agile handling of the vessel. This feature is particularly beneficial for large ships, where precise navigation is crucial for safety and efficiency.One of the primary advantages of a suspended rudder is its ability to reduce drag. Since the rudder is not rigidly attached to the hull, it can be designed to operate in a more streamlined manner, minimizing resistance as the ship moves through the water. This reduction in drag can lead to improved fuel efficiency, which is a significant consideration for shipping companies looking to lower operating costs and reduce their environmental impact.Moreover, the suspended rudder can enhance the vessel's stability and control during various maneuvers. For instance, when a ship needs to make sharp turns or navigate through narrow passages, the flexibility offered by a suspended rudder can allow for smoother transitions and better overall handling. This capability is essential for ensuring the safety of both the crew and cargo, especially in busy ports or congested waterways.In addition to these practical benefits, the implementation of a suspended rudder also demonstrates the ongoing evolution of maritime technology. Engineers and designers are constantly seeking ways to improve the functionality and efficiency of vessels, and the suspended rudder is a prime example of this innovative spirit. As the industry shifts towards more sustainable practices, the development of advanced rudder systems will likely play a vital role in shaping the future of shipping and transportation.Furthermore, the use of a suspended rudder aligns with global efforts to reduce carbon emissions from the maritime sector. By enhancing fuel efficiency and optimizing vessel performance, shipping companies can contribute to the fight against climate change while still meeting the demands of international trade. This dual focus on innovation and sustainability is essential for the long-term viability of the maritime industry.In conclusion, the suspended rudder represents a significant advancement in naval engineering, offering numerous benefits in terms of maneuverability, efficiency, and environmental sustainability. As the maritime industry continues to evolve, the adoption of such technologies will be crucial for maintaining competitiveness and addressing the challenges posed by modern shipping demands. The future of maritime navigation may very well depend on the successful integration of innovative solutions like the suspended rudder into vessel design and operation.

“悬挂舵”的概念通常用于船舶建筑和海洋工程的背景下。悬挂舵指的是一种不直接固定在船体上的舵，而是通过一个系统支撑，使其能够自由移动，从而提供更好的机动性和对船只方向的控制。这种创新设计可以显著提高船舶的性能，尤其是在复杂的海洋条件下。近年来，海事行业对先进操控技术的兴趣日益增加，例如悬挂舵。传统舵通常固定在船的尾部，这可能限制其在某些情况下的有效性。相比之下，悬挂舵可以动态调整，从而使船只的操控更加灵敏和灵活。这一特性对于大型船舶尤为重要，因为精确导航对于安全和效率至关重要。悬挂舵的主要优点之一是其能够减少阻力。由于舵不是刚性固定在船体上，它可以设计成以更流线型的方式运作，从而在船只穿行水中时最小化阻力。这种阻力的减少可以提高燃料效率，这是航运公司希望降低运营成本和减少环境影响的重要考虑。此外，悬挂舵还可以增强船只在各种操作中的稳定性和控制力。例如，当船只需要急转弯或在狭窄通道中航行时，悬挂舵所提供的灵活性可以使过渡更加平滑，整体操控更好。这一能力对于确保船员和货物的安全至关重要，尤其是在繁忙的港口或拥挤的水道中。除了这些实际好处外，悬挂舵的实施也展示了海洋技术的不断演变。工程师和设计师不断寻找改善船舶功能和效率的方法，而悬挂舵正是这一创新精神的典范。随着行业向更可持续的实践转变，先进舵系统的发展将很可能在塑造航运和运输的未来中发挥重要作用。此外，使用悬挂舵与全球减少海事部门碳排放的努力相一致。通过提高燃油效率和优化船舶性能，航运公司可以为抗击气候变化做出贡献，同时满足国际贸易的需求。这种对创新和可持续性的双重关注对于海事行业的长期可行性至关重要。总之，悬挂舵代表了海洋工程的一项重大进展，在机动性、效率和环境可持续性方面提供了众多好处。随着海事行业的不断发展，采用此类技术对于保持竞争力和应对现代航运需求带来的挑战至关重要。未来的海事导航可能在很大程度上依赖于将像悬挂舵这样的创新解决方案成功整合到船舶设计和操作中。