water ballast suction

简明释义

压载水吸管

英英释义

例句

1.The engineer monitored the water ballast suction levels closely during the voyage.

在航行过程中，工程师密切监测水舱吸水的水平。

2.The ship's stability improved significantly after the water ballast suction was engaged.

在启动水舱吸水后，船的稳定性显著提高。

3.During rough seas, the crew activated the water ballast suction to lower the center of gravity.

在波涛汹涌的海面上，船员们启动了水舱吸水以降低重心。

4.Before docking, the vessel performed water ballast suction to prepare for unloading cargo.

在靠港之前，船只进行了水舱吸水以准备卸货。

5.Proper management of water ballast suction is essential for safe navigation.

妥善管理水舱吸水对安全航行至关重要。

作文

The concept of water ballast suction plays a crucial role in maritime engineering and the operation of ships. Ballast is used in ships to provide stability and control the vessel's weight distribution. The term water ballast suction refers specifically to the process of drawing water into the ballast tanks of a ship, which helps to lower its center of gravity, improve stability, and ensure safe navigation in various sea conditions. Understanding this process involves a combination of physics, engineering principles, and practical application in marine operations.Ships often face challenges related to their buoyancy and stability, especially when carrying heavy cargo or navigating through rough waters. To counteract these challenges, engineers have developed systems that allow for the efficient management of ballast water. When a ship needs to increase its weight to enhance stability, it can utilize water ballast suction to fill its ballast tanks with water from the surrounding sea. This process not only adds weight but also lowers the ship's center of gravity, making it less prone to rolling or capsizing.The operation of water ballast suction involves specialized pumps and piping systems designed to efficiently draw water into the ballast tanks. These systems must be carefully monitored and controlled to prevent overfilling and to ensure that the ship maintains its intended draft and trim. Additionally, the management of ballast water is subject to environmental regulations, as ships must avoid introducing invasive species into new ecosystems. Therefore, modern vessels are equipped with treatment systems that clean the ballast water before it is discharged back into the ocean.Moreover, the use of water ballast suction is not limited to large cargo ships; it is also essential for smaller vessels, including yachts and fishing boats. For instance, many racing yachts use adjustable ballast systems that allow sailors to optimize their boat's performance by shifting weight as needed. By understanding how to effectively use water ballast suction, sailors can enhance their vessel's speed and maneuverability, gaining a competitive edge in races.In conclusion, the process of water ballast suction is vital for maintaining the safety and performance of maritime vessels. It allows ships to adapt to varying conditions at sea, ensuring that they remain stable and seaworthy. As technology advances, the methods and systems involved in water ballast suction will continue to evolve, leading to safer and more efficient maritime operations. Furthermore, the importance of environmental stewardship in managing ballast water cannot be overstated, as it is crucial for protecting marine ecosystems around the world. Therefore, a comprehensive understanding of water ballast suction is essential for anyone involved in maritime activities, from engineers to sailors, and underscores the intricate relationship between engineering, safety, and environmental responsibility in the maritime industry.

“水舱吸入”的概念在海洋工程和船舶操作中起着至关重要的作用。舱内压载用于为船只提供稳定性，并控制船体的重量分布。“水舱吸入”一词特指将水抽入船舶压载舱的过程，这有助于降低船舶的重心，提高稳定性，并确保在各种海况下的安全航行。理解这一过程涉及物理学、工程原理和海洋操作的实际应用。船舶在浮力和稳定性方面常常面临挑战，特别是在承载重货或在恶劣水域航行时。为了应对这些挑战，工程师们开发了可以有效管理压载水的系统。当船只需要增加重量以增强稳定性时，可以利用“水舱吸入”从周围海域向压载舱注入水。这一过程不仅增加了重量，还降低了船舶的重心，使其不易倾斜或翻覆。“水舱吸入”的操作涉及专门的泵和管道系统，旨在高效地将水抽入压载舱。这些系统必须仔细监控和控制，以防止过度填充，并确保船舶保持预定的吃水深度和 trim。此外，压载水的管理受到环境法规的约束，船舶必须避免将入侵物种引入新的生态系统。因此，现代船舶配备了处理系统，在排放回海洋之前清理压载水。此外，“水舱吸入”的使用并不限于大型货船；它对于较小的船只，包括游艇和渔船也至关重要。例如，许多竞赛游艇使用可调节的压载系统，允许水手根据需要优化船只的性能。通过理解如何有效使用“水舱吸入”，水手可以提高船只的速度和机动性，在比赛中获得竞争优势。总之，“水舱吸入”的过程对于维护海洋船舶的安全和性能至关重要。它使船舶能够适应海上的各种条件，确保它们保持稳定和适航。随着技术的进步，涉及“水舱吸入”的方法和系统将继续发展，从而导致更安全和更高效的海洋操作。此外，在管理压载水方面对环境保护的重视不容忽视，因为这对于保护全球海洋生态系统至关重要。因此，对于任何参与海洋活动的人来说，全面理解“水舱吸入”都是必不可少的，从工程师到水手，都强调了海洋工业中工程、安全和环境责任之间错综复杂的关系。