multi-supported rudder

简明释义

多支承舵

英英释义

例句

1.The team decided to implement a multi-supported rudder in the prototype to enhance its maneuverability.

团队决定在原型中实施多支撑舵，以增强其机动性。

2.The multi-supported rudder allows for greater control in rough waters, making it ideal for fishing boats.

这种多支撑舵在波涛汹涌的水域中提供更好的控制，非常适合渔船使用。

3.Using a multi-supported rudder can significantly reduce drag and improve fuel efficiency.

使用多支撑舵可以显著减少阻力，提高燃油效率。

4.The new yacht design features a multi-supported rudder for improved stability during high-speed maneuvers.

新的游艇设计采用了多支撑舵，以提高高速机动时的稳定性。

5.Engineers tested the multi-supported rudder to ensure it could withstand extreme ocean conditions.

工程师们测试了多支撑舵，以确保其能够承受极端海洋条件。

作文

In the realm of naval engineering, the design and functionality of vessels are critical to their performance and safety. One vital component that plays a significant role in maneuverability is the rudder. Among various types of rudders, the multi-supported rudder (多支撑舵) stands out due to its innovative design and enhanced capabilities. This essay aims to explore the characteristics, advantages, and applications of the multi-supported rudder in modern maritime technology.The multi-supported rudder is defined by its unique structure, which incorporates multiple support points along its span. Unlike traditional rudders that are typically supported at a single pivot point, this type of rudder distributes the hydrodynamic forces more evenly across its surface. This design not only improves stability but also increases the overall efficiency of the vessel's steering system.One of the primary advantages of the multi-supported rudder is its ability to enhance maneuverability, especially in challenging conditions such as high-speed navigation or tight turns. The multiple support points allow for better control over the rudder's angle, enabling quicker response times when changing direction. This feature is particularly beneficial for large vessels, such as container ships and cruise liners, which require precise handling to navigate congested ports or narrow waterways.Another significant benefit of the multi-supported rudder is its structural integrity. The distribution of forces reduces the likelihood of damage or failure, which can be a critical issue for conventional rudders under extreme conditions. By minimizing stress concentrations, the multi-supported rudder can withstand greater forces without compromising its function. This durability translates into lower maintenance costs and increased operational reliability for ship operators.Moreover, the multi-supported rudder contributes to improved fuel efficiency. With better maneuverability and reduced drag, vessels equipped with this type of rudder can operate more effectively, leading to lower fuel consumption. In an era where environmental concerns and fuel costs are paramount, the adoption of efficient designs like the multi-supported rudder is essential for the sustainability of maritime operations.The applications of the multi-supported rudder are vast and varied. It is commonly found in advanced naval vessels, including warships and research ships, where precision and reliability are crucial. Additionally, its use is expanding in commercial shipping, where the need for efficient and safe navigation is increasingly important. As the maritime industry continues to evolve, the multi-supported rudder is likely to play a pivotal role in shaping the future of vessel design and operation.In conclusion, the multi-supported rudder represents a significant advancement in rudder technology, offering numerous benefits in terms of maneuverability, structural integrity, and fuel efficiency. As the demand for more sophisticated and environmentally friendly maritime solutions grows, the importance of innovative designs like the multi-supported rudder cannot be overstated. By embracing such technologies, the maritime industry can enhance its operational capabilities while addressing the challenges of modern navigation.

在海洋工程领域，船只的设计和功能对其性能和安全至关重要。舵是影响操控性的重要组成部分。在各种类型的舵中，多支撑舵因其创新设计和增强能力而脱颖而出。本文旨在探讨多支撑舵的特点、优势和在现代海事技术中的应用。多支撑舵的定义在于其独特的结构，沿其跨度设有多个支撑点。与通常只在单一支点支撑的传统舵不同，这种类型的舵能够更均匀地分配水动力作用在其表面。这种设计不仅提高了稳定性，还增加了船舶操纵系统的整体效率。多支撑舵的主要优势之一是其在高速度航行或紧急转弯等挑战性条件下增强了操控性。多个支撑点使得舵角的控制更加灵活，从而在改变方向时能迅速响应。这一特性对于需要精确操控的大型船舶，如集装箱船和游轮尤为重要，因为它们在拥挤的港口或狭窄水道中航行时需要极高的操控能力。多支撑舵的另一个显著好处是其结构完整性。力量的分布降低了损坏或失效的可能性，而这在极端条件下对传统舵来说是一个关键问题。通过最小化应力集中，多支撑舵能够承受更大的力量而不影响其功能。这种耐用性转化为较低的维护成本和更高的运营可靠性，对船舶运营商来说意义重大。此外，多支撑舵还促进了燃油效率的提高。由于具有更好的操控性和减少的阻力，装备这种类型舵的船舶能够更有效地运行，从而降低燃油消耗。在环保关注和燃料成本日益上升的时代，采用像多支撑舵这样的高效设计对于海事运营的可持续性至关重要。多支撑舵的应用广泛且多样。它通常用于先进的海军舰艇，包括军舰和研究船，在这些船舶中，精确和可靠性至关重要。此外，它在商业航运中的使用也在不断扩大，在那里，高效和安全导航的需求日益重要。随着海事行业的不断发展，多支撑舵可能在塑造未来船舶设计和操作方面发挥关键作用。总之，多支撑舵代表了舵技术的重大进步，在操控性、结构完整性和燃油效率方面提供了众多好处。随着对更复杂和环保的海事解决方案需求的增长，像多支撑舵这样的创新设计的重要性不容小觑。通过采用这些技术，海事行业可以提升其运营能力，同时应对现代航行的挑战。