steering nozzle with rudder

简明释义

带舵可转导管

英英释义

例句

1.Engineers designed a new steering nozzle with rudder to enhance the vessel's turning radius.

工程师设计了一种新的带舵的操纵喷嘴以增强船只的转弯半径。

2.A steering nozzle with rudder can significantly reduce fuel consumption by optimizing hydrodynamics.

通过优化水动力学，带舵的操纵喷嘴可以显著减少燃料消耗。

3.The ship's maneuverability improved significantly after the installation of the steering nozzle with rudder.

在安装了带舵的操纵喷嘴后，船只的机动性显著提高。

4.The captain praised the efficiency of the steering nozzle with rudder during rough sea conditions.

船长称赞在恶劣海况下带舵的操纵喷嘴的高效性。

5.Using a steering nozzle with rudder allows for more precise control during docking procedures.

使用带舵的操纵喷嘴可以在靠泊过程中实现更精确的控制。

作文

The design of modern ships and submarines has evolved significantly over the years, incorporating various technologies to enhance maneuverability and control. One such innovation is the use of a steering nozzle with rudder. This system combines the traditional rudder with a specialized steering nozzle, allowing for greater precision in navigation and improved handling in challenging maritime conditions.The steering nozzle with rudder operates by directing water flow more effectively than a standard rudder alone. In traditional designs, a rudder changes the direction of the vessel by deflecting water flow at the stern. However, when combined with a steering nozzle, the system can manipulate the water jet more dynamically, providing enhanced thrust and agility. This is particularly beneficial for vessels that require quick turns or need to operate in tight spaces, such as in harbors or during naval operations.One of the primary advantages of a steering nozzle with rudder is its ability to improve the overall efficiency of the vessel. By optimizing water flow, ships can achieve better fuel economy, which is crucial for long voyages where fuel costs can be substantial. Additionally, the increased maneuverability allows for smoother navigation through congested waterways, reducing the risk of accidents and improving safety.Furthermore, the integration of a steering nozzle with rudder is not limited to large ships; smaller crafts also benefit from this technology. For example, recreational boats equipped with this system can enjoy enhanced responsiveness, making them easier to handle for novice sailors. The intuitive nature of the steering nozzle allows for a more enjoyable boating experience, as operators can execute sharp turns and quick maneuvers with confidence.In military applications, the steering nozzle with rudder provides strategic advantages. Naval vessels equipped with this technology can evade enemy detection more effectively due to their ability to change direction swiftly. This is vital in combat scenarios where agility can mean the difference between evasion and engagement. Moreover, submarines utilizing this system can navigate underwater environments with increased stealth and precision, making them formidable assets in naval warfare.However, the implementation of a steering nozzle with rudder is not without challenges. The complexity of the system requires careful engineering and maintenance. Operators must be trained to understand the nuances of this technology to maximize its potential benefits. Furthermore, the initial cost of integrating such advanced systems can be high, which may deter some operators from adopting this innovative solution.In conclusion, the steering nozzle with rudder represents a significant advancement in maritime technology, enhancing the maneuverability, efficiency, and safety of vessels. As the demands of navigation continue to evolve, it is likely that more ships will adopt this technology, paving the way for a new era of maritime exploration and operation. Understanding the mechanics and benefits of a steering nozzle with rudder is essential for anyone involved in marine engineering or navigation, as it holds the key to future innovations in the field.

现代船舶和潜艇的设计随着时间的推移而显著发展，结合各种技术以增强机动性和控制能力。其中一种创新是使用带舵的操纵喷嘴。该系统将传统舵与专门的操纵喷嘴相结合，允许在导航中实现更高的精度，并在具有挑战性的海洋条件下改善处理。带舵的操纵喷嘴通过比标准舵更有效地引导水流来运作。在传统设计中，舵通过偏转船尾的水流来改变船只的方向。然而，当与操纵喷嘴结合时，该系统可以更动态地操控水流，提供增强的推进力和灵活性。这对于需要快速转弯或需要在狭窄空间中操作的船只尤为有利，例如在港口或海军行动中。带舵的操纵喷嘴的主要优势之一是提高了船只的整体效率。通过优化水流，船只可以实现更好的燃油经济性，这对于长途航行至关重要，因为燃料成本可能相当可观。此外，增强的机动性使得在拥挤水域中平稳导航成为可能，降低了事故风险，提高了安全性。此外，配备带舵的操纵喷嘴的系统不仅限于大型船只；小型船只也能从这一技术中受益。例如，配备该系统的休闲船可以享受增强的响应性，使其对新手水手更易于操作。操纵喷嘴的直观特性使得操作员能够自信地执行急转弯和快速机动，从而享受更愉快的航海体验。在军事应用中，带舵的操纵喷嘴提供战略优势。装备有此技术的海军舰艇可以更有效地躲避敌方侦测，因为它们能够迅速改变方向。这在战斗场景中至关重要，因为机动性可能意味着逃避和交战之间的区别。此外，利用该系统的潜艇可以在水下环境中以更高的隐蔽性和精确度进行导航，使其成为海军战争中的强大资产。然而，实施带舵的操纵喷嘴并非没有挑战。该系统的复杂性需要仔细的工程设计和维护。操作员必须接受培训，以理解这一技术的细微差别，从而最大限度地发挥其潜在优势。此外，集成如此先进系统的初始成本可能很高，这可能会阻止一些操作员采用这一创新解决方案。总之，带舵的操纵喷嘴代表了海事技术的重大进步，提高了船只的机动性、效率和安全性。随着导航需求的不断演变，越来越多的船只可能会采用这一技术，为海洋探索和操作的新纪元铺平道路。理解带舵的操纵喷嘴的机制和好处对于任何参与海洋工程或导航的人来说都是至关重要的，因为它掌握着该领域未来创新的关键。