twin rudder

简明释义

双舵

英英释义

例句

1.With its twin rudder configuration, the sailboat can handle rough seas more effectively.

凭借其双舵配置，这艘帆船可以更有效地应对恶劣海况。

2.The twin rudder setup allows for sharper turns during racing.

这个双舵设置允许在比赛中进行更急的转弯。

3.Many modern fishing boats are equipped with a twin rudder system to enhance stability.

许多现代渔船配备了双舵系统，以增强稳定性。

4.The twin rudder design provides better control in strong currents.

这种双舵设计在强水流中提供更好的控制。

5.The new yacht design features a twin rudder system for improved maneuverability.

新的游艇设计采用了双舵系统，以提高机动性。

作文

The concept of a twin rudder is often associated with advanced naval architecture and aerodynamics. In simple terms, a twin rudder system consists of two rudders that work in tandem to provide enhanced steering control for ships and aircraft. This innovative design has been adopted in various vessels due to its numerous advantages over traditional single-rudder systems. In this essay, I will explore the benefits and applications of the twin rudder system, as well as its significance in modern engineering.One of the primary advantages of a twin rudder configuration is its improved maneuverability. With two rudders positioned at the stern of the vessel, the steering response becomes quicker and more precise. This is particularly beneficial for larger ships, which often face challenges when navigating tight spaces or making sharp turns. The twin rudder design allows for greater control, enabling these vessels to execute complex maneuvers with ease. Moreover, this enhanced maneuverability is crucial in emergency situations where rapid response is necessary.Another significant benefit of the twin rudder system is its ability to reduce drag. When both rudders are actively engaged, they can create a more efficient flow of water around the hull, minimizing resistance and allowing the vessel to move faster with less power. This efficiency not only saves fuel but also reduces operational costs, making it an attractive option for commercial shipping companies. Additionally, the reduced drag contributes to lower emissions, aligning with global efforts to promote environmentally friendly practices in maritime operations.The twin rudder system is also advantageous in terms of redundancy. In the event that one rudder becomes damaged or fails, the other rudder can still function, ensuring that the vessel remains controllable. This redundancy is particularly important for naval vessels and large cargo ships, where safety and reliability are paramount. The presence of a backup rudder can be a lifesaver in critical situations, allowing the crew to navigate to safety even under adverse conditions.Furthermore, the twin rudder design is not limited to maritime applications; it has also been adapted for use in aviation. Some aircraft utilize a twin rudder system to enhance stability and control during flight. This is particularly useful for larger aircraft or those designed for specific maneuvers, such as aerobatic planes. The dual rudders provide pilots with better handling characteristics, allowing for more responsive and agile flight performance.In conclusion, the twin rudder system represents a significant advancement in steering technology for both ships and aircraft. Its benefits, including improved maneuverability, reduced drag, and enhanced safety through redundancy, make it an appealing choice for modern engineering applications. As the maritime and aviation industries continue to evolve, the adoption of twin rudder systems is likely to increase, paving the way for more efficient and reliable transportation solutions. Understanding the importance of such innovations is essential for anyone interested in the future of engineering and design in these fields.

“双舵”这一概念通常与先进的海洋建筑和空气动力学相关。简单来说，“双舵”系统由两个舵组成，它们共同工作以提供增强的船舶和飞机的操控能力。这种创新设计已被多种船只采用，因其相较于传统单舵系统有着众多优势。在这篇文章中，我将探讨“双舵”系统的好处和应用，以及它在现代工程中的重要性。“双舵”配置的主要优势之一是其改善的机动性。船尾位置的两个舵使得转向反应变得更加迅速和精确。这对于大型船只尤其重要，因为它们在狭窄空间或急转弯时常常面临挑战。“双舵”设计允许更大的控制能力，使这些船只能够轻松执行复杂的机动。此外，这种增强的机动性在紧急情况下尤为关键，因为快速响应是必需的。“双舵”系统的另一个显著好处是其降低阻力的能力。当两个舵都积极参与时，它们可以在船体周围创造出更有效的水流，从而最小化阻力，让船只以更少的动力更快地移动。这种效率不仅节省燃料，还降低了运营成本，使其成为商业航运公司的吸引选择。此外，降低的阻力也有助于减少排放，与全球推动环保实践的努力相一致。“双舵”系统在冗余性方面也具有优势。如果一个舵损坏或失效，另一个舵仍然可以正常工作，确保船只保持可控性。这种冗余对于海军舰艇和大型货轮尤其重要，因为安全和可靠性至关重要。备份舵的存在可以在关键情况下拯救生命，使船员能够在不利条件下安全航行。此外，“双舵”设计不仅限于海事应用；它还被适用于航空。一些飞机利用“双舵”系统来增强飞行过程中的稳定性和控制性。这对于大型飞机或那些设计用于特定机动（如特技飞机）尤其有用。双舵为飞行员提供了更好的操控特性，使飞行表现更加敏捷和灵活。总之，“双舵”系统代表了船舶和飞机转向技术的重大进步。其好处包括改善的机动性、降低的阻力以及通过冗余增强的安全性，使其成为现代工程应用的吸引选择。随着海事和航空工业的不断发展，“双舵”系统的采用可能会增加，为更高效和可靠的运输解决方案铺平道路。理解这些创新的重要性对于任何对未来工程及设计感兴趣的人来说都是至关重要的。