transverse thruster

简明释义

横向推力器

英英释义

例句

1.The ship used its transverse thruster to maneuver sideways into the tight docking space.

这艘船使用了它的横向推进器将自己侧移到狭窄的停靠位置。

2.The new model features an upgraded transverse thruster for improved handling.

新型号配备了升级版的横向推进器，以改善操控性。

3.During the storm, the captain relied on the transverse thruster for better control of the vessel.

在风暴中，船长依靠横向推进器更好地控制船只。

4.When reversing, the transverse thruster helps stabilize the boat's position.

在倒车时，横向推进器有助于稳定船只的位置。

5.The transverse thruster allows the yacht to perform intricate maneuvers in crowded marinas.

这个横向推进器使游艇能够在拥挤的码头进行复杂的操控。

作文

In modern maritime engineering, the term transverse thruster refers to a type of propulsion system that allows vessels to maneuver more effectively in confined spaces. This technology plays a crucial role in enhancing the navigational capabilities of ships, particularly during docking and undocking procedures. The transverse thruster is typically mounted on the bow or stern of a ship and can be operated independently of the main engines. This feature makes it invaluable for large vessels that require precise control while navigating through tight harbors or marinas.The functionality of a transverse thruster lies in its ability to generate lateral thrust, which enables the vessel to move sideways. When a captain needs to position a ship at a specific angle or align it with a dock, the transverse thruster provides the necessary force to achieve this without relying solely on rudder movements or the main propulsion system. This capability significantly reduces the risk of collisions and grounding, making it an essential component for modern ships.There are various types of transverse thrusters, including tunnel thrusters and retractable thrusters. Tunnel thrusters are installed within a tunnel that runs through the hull of the ship, allowing water to flow freely and generate thrust. On the other hand, retractable thrusters can be lowered into the water when needed and retracted when not in use, providing flexibility in design and operation.The importance of transverse thrusters has grown alongside the increasing size of vessels. As ships become larger and more complex, traditional methods of maneuvering have proven inadequate in many situations. The introduction of transverse thrusters has revolutionized the way ships are handled, particularly in busy ports where space is limited. By utilizing these thrusters, captains can execute intricate maneuvers with greater ease and confidence.Moreover, the environmental impact of shipping operations has led to a greater emphasis on efficient maneuvering systems. The ability of transverse thrusters to facilitate smoother docking procedures can help reduce fuel consumption and emissions, as vessels spend less time idling and maneuvering in port. This efficiency aligns with global initiatives aimed at reducing the carbon footprint of the maritime industry.In conclusion, the transverse thruster is a vital innovation in maritime technology that enhances the maneuverability of vessels, particularly in challenging environments. Its ability to provide lateral thrust allows for safer and more efficient docking operations, thus playing a significant role in modern shipping practices. As the industry continues to evolve, the relevance of transverse thrusters will only increase, ensuring that ships can navigate the complexities of today’s waterways with precision and care.

在现代海洋工程中，术语横向推进器指的是一种推进系统，使船只在狭小空间内能够更有效地操纵。这项技术在增强船舶的导航能力方面发挥着至关重要的作用，尤其是在靠泊和离港程序中。横向推进器通常安装在船首或船尾，可以独立于主发动机操作。这一特性使其在大型船舶需要在狭窄的港口或码头中进行精确控制时显得尤为宝贵。横向推进器的功能在于其产生横向推力的能力，使船舶能够侧向移动。当船长需要将船只定位到特定角度或与码头对齐时，横向推进器提供了必要的力量，以此来实现这一目的，而不必完全依赖舵的运动或主推进系统。这一能力显著降低了碰撞和搁浅的风险，使其成为现代船舶的重要组成部分。有多种类型的横向推进器，包括隧道推进器和可收回推进器。隧道推进器安装在穿过船体的隧道内，允许水自由流动并产生推力。另一方面，可收回推进器可以在需要时降入水中，在不使用时收回，提供了设计和操作上的灵活性。随着船舶规模的不断增大，横向推进器的重要性也在与日俱增。随着船只变得越来越大和复杂，传统的操纵方法在许多情况下已被证明是不够的。横向推进器的引入彻底改变了船舶的操控方式，尤其是在空间有限的繁忙港口。通过利用这些推进器，船长可以更轻松、自信地执行复杂的操纵。此外，航运操作对环境影响的关注促使对高效操控系统的重视。横向推进器能够促进更平稳的靠泊程序，这有助于减少燃料消耗和排放，因为船只在港口停留和操控的时间更少。这种效率与全球旨在减少航运业碳足迹的倡议相一致。总之，横向推进器是海洋技术中的一项重要创新，增强了船舶在挑战性环境中的机动性。其提供的横向推力使得靠泊操作更加安全和高效，从而在现代航运实践中发挥着重要作用。随着行业的不断发展，横向推进器的相关性只会增加，确保船舶能够以精准和谨慎的方式航行于当今复杂的水域。