trough ship lift

简明释义

槽形升船机

英英释义

例句

1.The trough ship lift significantly reduced the time required for vessel handling.

该槽式船舶升降机显著减少了船只操作所需的时间。

2.During the construction of the new terminal, a trough ship lift was essential for moving heavy equipment.

在新航站楼的建设过程中，槽式船舶升降机对移动重型设备至关重要。

3.The harbor invested in a trough ship lift to accommodate larger vessels.

港口投资建设了一个槽式船舶升降机以容纳更大的船只。

4.The engineers designed a new type of trough ship lift to improve cargo transport efficiency.

工程师们设计了一种新型的槽式船舶升降机，以提高货物运输效率。

5.Using a trough ship lift allows for smoother loading and unloading of bulk materials.

使用槽式船舶升降机可以更顺畅地装卸散装材料。

作文

In the world of maritime engineering, one of the fascinating innovations that have emerged is the concept of the trough ship lift. This mechanism is designed to facilitate the movement of ships between different water levels, particularly in areas where traditional locks may not be feasible. The trough ship lift operates on the principle of buoyancy and counterweight, allowing vessels to be raised or lowered efficiently. The importance of the trough ship lift cannot be overstated, especially in regions with significant elevation changes. For instance, rivers that flow through hilly or mountainous terrains often pose challenges for navigation. Traditional locks can be time-consuming and require a large amount of water to operate. In contrast, the trough ship lift offers a more streamlined solution, significantly reducing transit times for cargo and passenger ships alike.One of the most notable examples of a trough ship lift is the one located in the Netherlands, which has revolutionized shipping routes in the region. This particular lift allows large vessels to move from a lower body of water to a higher one in a matter of minutes. The design incorporates a trough-like structure that holds the ship securely while it is being lifted. As water is pumped in or out of the trough, the ship is raised or lowered smoothly without the need for extensive waiting periods.Moreover, the environmental impact of the trough ship lift is also worth mentioning. By providing a more efficient means of transportation, this technology reduces fuel consumption and emissions associated with longer shipping routes. Additionally, it minimizes the disruption to local ecosystems, as fewer alterations to the natural landscape are required compared to constructing multiple locks.The engineering behind the trough ship lift is a testament to human ingenuity. Engineers must consider various factors, such as the weight of the ships, the volume of water needed for operation, and the structural integrity of the lift itself. Advanced materials and technologies are employed to ensure that the lift can handle the stresses of daily operations while maintaining safety standards.As we look to the future, the potential for the trough ship lift to transform maritime transport is immense. With increasing global trade and the need for efficient logistics solutions, such innovations will play a crucial role in shaping the future of shipping. Countries are beginning to invest in such technologies to enhance their port capabilities and improve connectivity between regions.In conclusion, the trough ship lift represents a significant advancement in maritime engineering. Its ability to efficiently move ships between different water levels not only saves time and resources but also contributes to a more sustainable approach to shipping. As we continue to innovate and find solutions to the challenges faced by the maritime industry, the trough ship lift stands out as a prime example of how technology can lead to improved efficiency and environmental stewardship in our waterways.

在海洋工程的世界中，出现了一个令人着迷的创新概念——船舶槽式升降机。该机制旨在促进船只在不同水位之间的移动，特别是在传统船闸不可行的地区。船舶槽式升降机的工作原理是浮力和配重，使得船只能够高效地升降。船舶槽式升降机的重要性不容小觑，尤其是在海拔变化显著的地区。例如，流经丘陵或山区的河流往往给航行带来挑战。传统的船闸可能耗时较长，并且需要大量的水来运作。相比之下，船舶槽式升降机提供了一种更简化的解决方案，大大缩短了货物和客运船只的运输时间。最著名的船舶槽式升降机之一位于荷兰，彻底改变了该地区的航运路线。这一升降机使大型船只能够在几分钟内从较低的水体移动到较高的水体。设计包括一个槽状结构，可以在升降过程中安全地固定船只。当水被抽入或排出槽内时，船只就会平稳地升降，而无需长时间等待。此外，船舶槽式升降机的环境影响也值得一提。通过提供更高效的运输方式，该技术减少了燃料消耗和与较长航运路线相关的排放。此外，它还最小化了对当地生态系统的干扰，因为与建设多个船闸相比，所需的自然景观改动较少。船舶槽式升降机背后的工程技术是人类智慧的证明。工程师必须考虑各种因素，如船舶的重量、操作所需的水量以及升降机本身的结构完整性。采用先进的材料和技术，以确保升降机能够承受日常操作的压力，同时保持安全标准。展望未来，船舶槽式升降机有潜力彻底改变海事运输。随着全球贸易的增加和对高效物流解决方案的需求，这种创新将在塑造航运未来方面发挥关键作用。各国开始投资于此类技术，以增强其港口能力并改善地区间的连接。总之，船舶槽式升降机代表了海洋工程的一项重大进步。它在不同水位之间高效移动船只的能力不仅节省了时间和资源，还为航运提供了更可持续的方法。随着我们不断创新并寻找解决海事行业面临的挑战的方案，船舶槽式升降机作为技术如何改善我们水道的效率和环境管理的典范而脱颖而出。