water ballast main

简明释义

压载水总管

英英释义

例句

1.During the voyage, the crew monitored the levels in the water ballast main to ensure optimal performance.

在航行过程中，船员监控水舱主的水位，以确保最佳性能。

2.The engineers adjusted the valves on the water ballast main to redistribute weight for better maneuverability.

工程师调整了水舱主的阀门，以重新分配重量以获得更好的操控性。

3.The design of the water ballast main plays a crucial role in the safety of large cargo ships.

设计水舱主在大型货船的安全中起着至关重要的作用。

4.Before docking, the captain ordered the water ballast main to be filled to stabilize the vessel.

在靠港之前，船长命令将水舱主装满，以稳定船只。

5.The ship's stability was enhanced by the addition of the water ballast main, which helped to lower the center of gravity.

通过增加水舱主，船的稳定性得到了增强，这有助于降低重心。

作文

In the world of engineering and maritime design, the term water ballast main refers to a crucial component used primarily in ships and submarines to maintain stability and control buoyancy. The concept of ballast is not new; it has been utilized for centuries by sailors who would load heavy materials into their vessels to ensure they remained upright in the water. However, the evolution of technology has transformed how we think about ballast systems, particularly with the introduction of water ballast main systems.The primary function of a water ballast main is to adjust the weight distribution of a vessel. By taking in or expelling water from designated tanks, a ship can lower its center of gravity, thus enhancing its stability during navigation. This is particularly important during rough weather conditions when waves can cause significant rolling and pitching. For example, a cargo ship may need to take on additional water ballast to counteract the forces exerted by high seas, ensuring that it remains safe and seaworthy.Moreover, the water ballast main system is designed to be highly efficient. Modern ships are equipped with pumps and valves that allow for rapid adjustments to the ballast water levels. This capability enables vessels to respond quickly to changing conditions, whether they are preparing to dock or navigating through turbulent waters. The ability to manage ballast effectively can mean the difference between a smooth sailing experience and a dangerous situation.Environmental considerations have also played a role in the development of water ballast main systems. As regulations regarding the discharge of ballast water have become stricter, ship designers have had to innovate. Today, many vessels incorporate advanced filtration systems and treatment processes to ensure that the water being taken on or released does not introduce invasive species into new ecosystems. This is a critical aspect of marine conservation efforts, as unintentional transfers of aquatic organisms can disrupt local environments and harm native species.Furthermore, the use of water ballast main systems is not limited to large vessels. Smaller boats and recreational crafts also utilize similar principles to enhance their performance and safety. For instance, sailboats often have adjustable ballast that can be shifted to improve stability while sailing. This versatility demonstrates the fundamental importance of ballast in various types of watercraft.In conclusion, the water ballast main is an essential element in maritime engineering that significantly contributes to the safety and efficiency of vessels. Its ability to adjust weight distribution and enhance stability makes it a vital tool for navigating the complexities of the marine environment. As technology continues to advance, we can expect further innovations in ballast systems that will improve their functionality and environmental impact. Understanding the role of water ballast main is crucial for anyone involved in maritime activities, whether they be engineers, sailors, or environmentalists, as it encapsulates the intersection of safety, technology, and ecological responsibility.

在工程和海洋设计的世界中，术语水压舱主指的是一种关键组件，主要用于船舶和潜艇，以维持稳定性和控制浮力。压舱的概念并不新鲜；几个世纪以来，水手们就利用重物装载到他们的船只上，以确保它们在水中保持直立。然而，技术的发展改变了我们对压舱系统的思考，特别是随着水压舱主系统的引入。水压舱主的主要功能是调整船只的重量分布。通过从指定的水箱中吸入或排出水，船可以降低其重心，从而增强其在航行中的稳定性。这在恶劣天气条件下尤其重要，当时波浪会导致显著的滚动和俯仰。例如，一艘货船可能需要增加额外的水压舱以抵消高海浪施加的力量，确保其安全和适航。此外，水压舱主系统被设计得非常高效。现代船舶配备了泵和阀门，允许快速调整压舱水位。这种能力使船舶能够迅速响应变化的条件，无论是在准备靠岸还是在动荡的水域中航行。有效管理压舱的能力可能意味着平稳航行体验与危险情况之间的区别。环境考虑也在水压舱主系统的发展中发挥了作用。随着关于压舱水排放的法规变得更加严格，船舶设计师不得不进行创新。如今，许多船舶都采用先进的过滤系统和处理工艺，以确保所吸入或释放的水不会将入侵物种引入新的生态系统。这是海洋保护工作的重要方面，因为无意间转移水生生物会破坏当地环境并危害本地物种。此外，水压舱主系统的使用并不仅限于大型船舶。较小的船只和休闲船也利用类似的原理来增强其性能和安全性。例如，帆船通常具有可调节的压舱，可以在航行时移动以改善稳定性。这种多功能性展示了压舱在各种水面交通工具中的基本重要性。总之，水压舱主是海洋工程中一个必不可少的元素，对船舶的安全性和效率有着重要贡献。其调整重量分布和增强稳定性的能力，使其成为应对海洋环境复杂性的关键工具。随着技术的不断进步，我们可以期待压舱系统在功能和环境影响方面的进一步创新。理解水压舱主的作用对任何参与海洋活动的人来说都是至关重要的，无论是工程师、水手还是环保人士，因为它体现了安全、技术和生态责任的交汇。