ship stabilization

简明释义

船舶减摇

英英释义

例句

1.The captain implemented measures for ship stabilization 船舶稳定性 before entering the storm.

船长在进入风暴之前采取了提高< span>船舶稳定性的措施。

2.Engineers are focused on improving ship stabilization 船舶稳定性 systems to reduce rolling.

工程师们专注于改善< span>船舶稳定性系统，以减少滚动。

3.Advanced gyroscopic systems contribute to better ship stabilization 船舶稳定性 during navigation.

先进的陀螺系统有助于在航行过程中提高< span>船舶稳定性。

4.Proper ship stabilization 船舶稳定性 is crucial for the safety of the crew and cargo.

适当的< span>船舶稳定性对船员和货物的安全至关重要。

5.The new technology significantly enhances ship stabilization 船舶稳定性 in rough seas.

新技术显著提高了< span>船舶稳定性在恶劣海域的表现。

作文

Ship stabilization is a crucial aspect of maritime engineering that ensures the safety and efficiency of vessels at sea. When we talk about ship stabilization (船舶稳定性), we refer to the methods and technologies used to maintain a ship's balance and minimize its rolling and pitching movements caused by waves and wind. This is particularly important for large vessels, such as cargo ships and cruise liners, which can be significantly affected by adverse weather conditions.The concept of ship stabilization (船舶稳定性) encompasses various techniques, including the design of the hull, the placement of weight within the ship, and the use of stabilizing devices. One of the most common methods is the use of bilge keels, which are projections on the hull that help reduce rolling by increasing hydrodynamic resistance. In addition, modern ships often incorporate active stabilization systems, such as gyroscopic stabilizers and fins that adjust their position in response to the ship's movements.Gyroscopic stabilizers work by using a spinning flywheel to create angular momentum, which counteracts the forces that cause the ship to roll. These systems are especially beneficial for luxury yachts and passenger ships, where passenger comfort is a priority. On the other hand, fins are deployed underwater and can pivot to create lift, effectively reducing the ship's motion. Both technologies significantly enhance the overall stability and comfort of the vessel, making them essential in contemporary ship design.Moreover, proper weight distribution plays a vital role in ship stabilization (船舶稳定性). Engineers carefully calculate the center of gravity of a ship to ensure that it remains low and centered. A lower center of gravity results in better stability, allowing the ship to withstand rough seas without capsizing. This is why cargo loading procedures are meticulously planned; improper loading can lead to dangerous shifts in weight that compromise the vessel's stability.In addition to physical stabilization techniques, advancements in technology have also led to the development of sophisticated software that predicts and analyzes a ship's behavior in various sea conditions. This predictive modeling allows crews to make informed decisions regarding speed, course adjustments, and other operational parameters to optimize stability while navigating challenging waters.The importance of ship stabilization (船舶稳定性) cannot be overstated. It not only ensures the safety of the crew and passengers but also protects the cargo and the environment. Unstable ships can lead to accidents, resulting in loss of life, damage to property, and environmental disasters from spills and wreckage. Therefore, investing in effective stabilization systems is essential for any maritime operation.In conclusion, ship stabilization (船舶稳定性) is an integral part of naval architecture and marine operations. Through a combination of innovative design, advanced technology, and careful planning, vessels can achieve optimal stability, ensuring safe and efficient travel across the world's oceans. As the maritime industry continues to evolve, the focus on enhancing ship stabilization (船舶稳定性) will remain a top priority, reflecting the ongoing commitment to safety and performance in maritime transportation.

船舶稳定性是海洋工程中至关重要的一个方面，它确保了船只在海上的安全和效率。当我们谈论船舶稳定性（ship stabilization）时，我们指的是用于保持船只平衡并最小化因波浪和风引起的摇摆和俯仰运动的方法和技术。这对于大型船只尤为重要，比如货轮和游轮，它们会受到恶劣天气条件的显著影响。船舶稳定性（ship stabilization）的概念涵盖了多种技术，包括船体设计、船内重心的布置以及使用稳定装置。最常见的方法之一是使用舷侧龙骨，这些是船体上的突起，帮助通过增加水动力阻力来减少摇摆。此外，现代船只通常采用主动稳定系统，例如陀螺稳定器和鳍，这些设备可以根据船只的运动调整其位置。陀螺稳定器通过使用旋转飞轮产生角动量，从而抵消导致船只摇摆的力量。这些系统对于豪华游艇和客船尤为有利，因为乘客的舒适度是优先考虑的。另一方面，鳍则在水下展开，可以旋转以产生升力，有效减少船只的运动。这两种技术显著提高了船只的整体稳定性和舒适性，使其在当代船舶设计中必不可少。此外，适当的重量分布在船舶稳定性（ship stabilization）中也扮演着重要角色。工程师们仔细计算船只的重心，以确保其保持低位和居中。较低的重心带来了更好的稳定性，使船只能够在恶劣海况下承受而不倾覆。这就是为什么货物装载程序被精心规划；不当的装载可能导致危险的重量转移，从而危及船只的稳定性。除了物理稳定技术外，技术的进步还导致了复杂软件的发展，这些软件可以预测和分析船只在各种海况下的行为。这种预测建模使船员能够就速度、航向调整和其他操作参数做出明智的决定，以优化在挑战性水域中的稳定性。船舶稳定性（ship stabilization）的重要性不容忽视。它不仅确保了船员和乘客的安全，还保护了货物和环境。不稳定的船只可能导致事故，造成生命损失、财产损坏以及由于泄漏和残骸造成的环境灾难。因此，投资于有效的稳定系统对于任何海事操作都是必要的。总之，船舶稳定性（ship stabilization）是海军建筑和海上操作的一个组成部分。通过创新设计、先进技术和周密规划的结合，船只可以实现最佳的稳定性，从而确保安全高效地穿越世界的海洋。随着海事行业的不断发展，增强船舶稳定性（ship stabilization）的关注将始终是重中之重，反映出对海上运输安全和性能的持续承诺。