bow-thruster tunnel

简明释义

首推力器管隧

英英释义

例句

1.The bow-thruster tunnel allows the vessel to pivot in tight spaces without needing to reverse.

该船头推进器隧道使船只能够在狭小空间内转向，而无需倒退。

2.During docking, the captain relied heavily on the bow-thruster tunnel to position the vessel accurately.

在靠泊时，船长非常依赖船头推进器隧道来准确定位船只。

3.In heavy winds, the bow-thruster tunnel provides additional stability to the ship.

在强风中，船头推进器隧道为船只提供了额外的稳定性。

4.Maintenance of the bow-thruster tunnel is crucial for ensuring optimal performance during navigation.

对船头推进器隧道的维护对于确保航行时的最佳性能至关重要。

5.The ship's maneuverability improved significantly after the installation of a new bow-thruster tunnel.

在安装了新的船头推进器隧道后，船只的机动性显著提高。

作文

In the world of maritime engineering, the design and functionality of vessels play a crucial role in their performance and maneuverability. One of the key components that enhance a ship's ability to navigate tight spaces is the bow-thruster tunnel. A bow-thruster tunnel is essentially a cylindrical passage located at the bow (front) of a ship, housing a propeller that provides lateral thrust, enabling the vessel to move sideways. This feature is especially beneficial in harbors or congested waterways where precision navigation is required. The significance of the bow-thruster tunnel cannot be overstated. Traditionally, ships relied solely on their main engines for steering, which often made maneuvering in narrow channels a daunting task. The introduction of the bow-thruster tunnel has revolutionized how vessels operate in confined spaces. It allows for greater control and agility, making it easier for captains to dock and undock without the assistance of tugboats. Furthermore, the bow-thruster tunnel operates by redirecting water flow from the propeller through the tunnel, creating a force that pushes the ship in the desired direction. This lateral movement can be crucial when positioning a vessel alongside a pier or when navigating through crowded marinas. The efficiency gained from this system means that ships can save time and reduce the risk of accidents during docking procedures.The engineering behind the bow-thruster tunnel is also fascinating. It requires careful consideration of hydrodynamics to ensure that the tunnel does not create excessive drag when the ship is underway. Designers must balance the size of the tunnel and the power of the thruster to optimize performance. Additionally, the placement of the bow-thruster tunnel must be strategically considered to avoid interference with the ship's hull and other operational systems.As the maritime industry continues to evolve, advancements in technology have led to more efficient and powerful bow-thruster tunnels. Modern thrusters are often equipped with variable speed controls and can be operated independently of the main propulsion system. This flexibility allows for even finer adjustments during maneuvers, further enhancing safety and efficiency.In conclusion, the bow-thruster tunnel is a vital component in modern ship design that significantly improves maneuverability and safety. Its ability to provide lateral thrust makes it an indispensable tool for navigating congested waters. As we move towards a future where shipping traffic increases, the importance of technologies like the bow-thruster tunnel will only grow, highlighting the need for continuous innovation in maritime engineering. Understanding how these systems work and their impact on vessel operations is essential for anyone involved in the shipping industry.

在海洋工程的世界中，船舶的设计和功能对其性能和机动性起着至关重要的作用。增强船只在狭小空间中导航能力的关键组件之一是艏推进器隧道。艏推进器隧道本质上是位于船首（前部）的一个圆柱形通道，内部安装有一个推进器，提供侧向推力，使船舶能够横向移动。这个特性在港口或拥挤的水道中特别有利，因为需要精确的导航。艏推进器隧道的重要性不容小觑。传统上，船舶仅依靠主引擎进行操控，这往往使得在狭窄航道中的机动变得艰难。艏推进器隧道的引入彻底改变了船舶在狭小空间中的操作方式。它允许更大的控制和灵活性，使船长能够在没有拖船协助的情况下轻松停靠和离开。此外，艏推进器隧道通过将水流从推进器引导到隧道内，产生推动船舶朝所需方向移动的力量。这种侧向运动在将船只定位到码头旁边或在拥挤的码头中导航时至关重要。通过这一系统获得的效率意味着船舶可以节省时间，降低在停靠过程中发生事故的风险。关于艏推进器隧道的工程设计也非常引人注目。它需要仔细考虑流体动力学，以确保隧道在船舶航行时不会产生过多的阻力。设计师必须平衡隧道的大小和推进器的功率，以优化性能。此外，艏推进器隧道的放置必须经过战略性考虑，以避免与船体和其他操作系统的干扰。随着海事行业的不断发展，技术的进步使得更高效、更强大的艏推进器隧道成为可能。现代推进器通常配备可变速控制，并可以独立于主推进系统操作。这种灵活性允许在机动过程中进行更精细的调整，进一步增强了安全性和效率。总之，艏推进器隧道是现代船舶设计中的一个重要组成部分，显著提高了机动性和安全性。它提供的侧向推力使其成为在拥挤水域中导航不可或缺的工具。随着我们迈向航运交通日益增长的未来，像艏推进器隧道这样的技术的重要性只会增加，突显出在海洋工程中持续创新的必要性。理解这些系统的工作原理及其对船舶操作的影响对于任何参与航运行业的人来说都是至关重要的。