suction between adjacent ships
简明释义
邻船间吸力
英英释义
The phenomenon where two nearby ships create a pressure difference in the water between them, resulting in an inward force that pulls them closer together. | 两个相邻船只在水中产生压力差的现象,导致一种向内的力量将它们拉得更近。 |
例句
1.During the naval exercise, the suction between adjacent ships 相邻船只之间的吸力 affected their maneuverability significantly.
在海军演习中,suction between adjacent ships 相邻船只之间的吸力显著影响了它们的机动性。
2.The pilot used the suction between adjacent ships 相邻船只之间的吸力 to assist in the berthing process.
引航员利用suction between adjacent ships 相邻船只之间的吸力来协助停靠过程。
3.Mariners should be cautious of the suction between adjacent ships 相邻船只之间的吸力 when navigating in tight spaces.
航海者在狭窄空间航行时应注意suction between adjacent ships 相邻船只之间的吸力。
4.The captain warned the crew about the potential suction between adjacent ships 相邻船只之间的吸力 that could cause instability during docking.
船长警告船员,在靠港时可能出现的suction between adjacent ships 相邻船只之间的吸力,这可能导致不稳定。
5.The engineer explained how suction between adjacent ships 相邻船只之间的吸力 can lead to collisions if not properly managed.
工程师解释了如果没有妥善管理,suction between adjacent ships 相邻船只之间的吸力可能会导致碰撞。
作文
The phenomenon of suction between adjacent ships is an intriguing aspect of maritime navigation that has significant implications for vessel safety and efficiency. When two ships are traveling close to each other, the movement of water caused by their hulls creates a low-pressure area between them. This low-pressure zone generates a suction effect that can pull the ships closer together. Understanding this concept is crucial for naval architects, ship operators, and maritime safety authorities. When vessels navigate in close proximity, especially in narrow channels or busy ports, the suction between adjacent ships can lead to various operational challenges. For instance, if two large container ships are sailing side by side, the suction effect may cause them to drift towards one another, increasing the risk of collision. This risk is particularly pronounced in conditions of strong currents or high winds, where the forces acting on the ships can exacerbate the suction effect. To mitigate these risks, it is essential for ship captains and crews to be aware of the suction between adjacent ships and to implement appropriate navigational strategies. This includes maintaining a safe distance between vessels, using tugs when necessary, and closely monitoring the behavior of nearby ships. Additionally, training programs for mariners should emphasize the importance of understanding hydrodynamic interactions between vessels, including the effects of suction. The implications of suction between adjacent ships extend beyond safety; they also affect fuel efficiency and operational costs. When ships are drawn closer together, they may experience increased resistance in the water, which can lead to higher fuel consumption. Therefore, understanding the dynamics of suction can help shipping companies optimize their routes and reduce operational expenses. Furthermore, research into the suction between adjacent ships has led to advancements in ship design. Modern vessels are being engineered with hull shapes that minimize the adverse effects of suction, allowing for safer and more efficient navigation. By incorporating hydrodynamic principles into the design process, engineers can create ships that are better equipped to handle the challenges posed by close-quarter navigation. In conclusion, the suction between adjacent ships is a critical factor in maritime operations that requires careful consideration. By understanding the mechanics of this phenomenon, maritime professionals can enhance safety, improve fuel efficiency, and contribute to the overall effectiveness of shipping operations. As the maritime industry continues to grow, the importance of addressing such hydrodynamic challenges will only increase, making it imperative for all stakeholders to remain informed and proactive in their approach to navigation.
相邻船只之间的吸力是海洋导航中的一个有趣现象,对船舶安全和效率有着重要影响。当两艘船靠近航行时,由于船体的运动,会在它们之间产生一个低压区域。这个低压区会产生一种吸力效果,拉动船只彼此靠近。理解这一概念对船舶设计师、船舶操作员和海事安全当局至关重要。当船只在狭窄的航道或繁忙的港口中近距离航行时,相邻船只之间的吸力可能会导致各种操作挑战。例如,如果两艘大型集装箱船并排航行,吸力效应可能会导致它们向彼此漂移,增加碰撞的风险。在强流或大风条件下,这种风险尤其明显,因为作用在船只上的力量会加剧吸力效应。为了降低这些风险,船长和船员必须意识到相邻船只之间的吸力,并实施适当的导航策略。这包括保持船只之间的安全距离,在必要时使用拖船,以及密切监测附近船只的行为。此外,针对海员的培训项目应强调理解船只之间水动力相互作用的重要性,包括吸力的影响。相邻船只之间的吸力的影响不仅限于安全;它们还会影响燃油效率和运营成本。当船只被拉得更近时,它们可能会在水中遇到更大的阻力,从而导致燃油消耗增加。因此,理解吸力的动态可以帮助航运公司优化航线,降低运营费用。此外,对相邻船只之间的吸力的研究促进了船舶设计的进步。现代船舶的设计正在采用能够最小化吸力不良影响的船体形状,使得导航更加安全和高效。通过将水动力学原理纳入设计过程,工程师可以创造出更能应对近距离航行挑战的船舶。总之,相邻船只之间的吸力是海洋操作中的一个关键因素,需要认真考虑。通过理解这一现象的机制,海事专业人员可以提高安全性、改善燃油效率,并为航运操作的整体有效性做出贡献。随着海洋产业的不断发展,解决此类水动力挑战的重要性只会增加,这使得所有利益相关者在导航时保持信息灵通和积极主动显得尤为重要。
相关单词
