ballast compartment

简明释义

压载舱室

英英释义

例句

1.The design of the ballast compartment is crucial for maintaining the vessel's balance.

设计压舱舱对维持船只平衡至关重要。

2.Before setting sail, the crew checked the ballast compartment for any leaks.

在起航之前，船员检查了压舱舱是否有泄漏。

3.During heavy seas, the captain adjusted the water level in the ballast compartment.

在恶劣的海况下，船长调整了压舱舱中的水位。

4.The ship's stability was compromised due to water entering the ballast compartment.

由于水进入了压舱舱，船的稳定性受到影响。

5.Inspecting the ballast compartment is part of the routine maintenance for the vessel.

检查压舱舱是船只例行维护的一部分。

作文

The concept of a ballast compartment is essential in the design and operation of various types of vessels, particularly ships and submarines. A ballast compartment refers to a space within a vessel that is specifically designed to hold ballast material, which can be water, sand, or other materials used to provide stability and control the buoyancy of the vessel. Understanding the function and importance of a ballast compartment can greatly enhance our comprehension of marine engineering and naval architecture.In the context of ships, the ballast compartment plays a crucial role in maintaining the vessel's balance and ensuring safe navigation. When a ship is loaded with cargo, its weight distribution can shift significantly. This is where the ballast compartment comes into play; by adjusting the amount of ballast water taken in or released, the crew can stabilize the ship and prevent it from capsizing. The ability to manipulate the ballast is particularly important during rough weather conditions when waves can cause the ship to tilt dangerously.Submarines also utilize ballast compartments to control their depth and orientation underwater. By filling or emptying these compartments with water, submarines can sink or rise in the water column. This process is critical for stealth operations, as submarines must often remain undetected beneath the surface. The design of a ballast compartment in submarines is more complex than in surface vessels because of the need to manage pressure changes at different depths.Moreover, the efficiency of a ballast compartment directly impacts the overall performance of the vessel. In modern engineering, advancements in technology have led to the development of automated systems that can monitor and adjust ballast levels in real-time. This not only enhances safety but also improves fuel efficiency by optimizing the vessel's weight and trim.Understanding the operational aspects of a ballast compartment can also shed light on environmental considerations. For instance, the practice of ballasting can lead to the introduction of invasive species when ballast water is taken on from one port and discharged in another. This has prompted regulatory measures to manage ballast water and protect marine ecosystems. Therefore, knowledge about ballast compartments extends beyond engineering and safety; it encompasses ecological awareness and responsibility.In conclusion, the ballast compartment is a vital component in maritime vessels, influencing their stability, safety, and operational efficiency. From cargo ships to submarines, the effective management of ballast compartments is crucial for navigating the complexities of marine environments. As we continue to explore and utilize our oceans, understanding the intricacies of a ballast compartment will be increasingly important, not only for the success of marine operations but also for the health of our planet's waterways.

‘压舱舱室’的概念在各种类型的船只，特别是船舶和潜艇的设计与操作中至关重要。‘压舱舱室’指的是船只内部专门设计用来容纳压舱材料的空间，这些材料可以是水、沙子或其他用于提供稳定性和控制船只浮力的材料。理解‘压舱舱室’的功能和重要性可以大大增强我们对海洋工程和船舶建筑的认识。在船舶的背景下，‘压舱舱室’在保持船只平衡和确保安全航行中发挥着关键作用。当一艘船装载货物时，其重量分布可能会发生显著变化。这时，‘压舱舱室’就派上用场了；通过调整进水或排出压舱水的数量，船员可以稳定船只，防止其倾覆。在恶劣天气条件下，能够操作压舱是特别重要的，因为波浪可能会导致船只危险地倾斜。潜艇也利用‘压舱舱室’来控制其在水下的深度和方向。通过向这些舱室注入或排出水，潜艇可以在水柱中下沉或上升。这个过程对于隐蔽行动至关重要，因为潜艇必须常常在水面下保持不被发现。潜艇中‘压舱舱室’的设计比水面船只更复杂，因为需要管理不同深度下的压力变化。此外，‘压舱舱室’的效率直接影响到船只的整体性能。在现代工程中，技术的进步导致了自动化系统的发展，这些系统可以实时监测和调整压舱水平。这不仅提高了安全性，还通过优化船只的重量和吃水深度来改善燃油效率。了解‘压舱舱室’的操作方面也可以揭示环境考虑。例如，从一个港口取用压舱水并在另一个港口排放时，可能会导致外来物种的引入。这促使了管理压舱水的监管措施，以保护海洋生态系统。因此，对于‘压舱舱室’的知识不仅涉及工程和安全，还包括生态意识和责任。总之，‘压舱舱室’是海洋船舶中的一个重要组成部分，影响着它们的稳定性、安全性和操作效率。从货船到潜艇，压舱舱室的有效管理对于应对海洋环境的复杂性至关重要。随着我们继续探索和利用海洋，理解‘压舱舱室’的复杂性将变得愈发重要，这不仅关乎海洋操作的成功，也关乎我们星球水域的健康。