static heeling angle

简明释义

静横倾角

英英释义

例句

1.The design of the vessel must consider the static heeling angle 静态倾斜角 to ensure stability during operation.

船舶的设计必须考虑到静态倾斜角 static heeling angle以确保在操作期间的稳定性。

2.A higher static heeling angle 静态倾斜角 can indicate potential risks when carrying heavy cargo.

较高的静态倾斜角 static heeling angle可能表明在运输重货时存在潜在风险。

3.The static heeling angle 静态倾斜角 is critical for determining the right ballast needed for the ship.

确定船舶所需的正确压载物时，静态倾斜角 static heeling angle至关重要。

4.Engineers must calculate the static heeling angle 静态倾斜角 to prevent capsizing in rough seas.

工程师必须计算静态倾斜角 static heeling angle以防止在恶劣海况下翻船。

5.During the stability test, we measured the static heeling angle 静态倾斜角 to assess the ship's performance.

在稳定性测试中，我们测量了静态倾斜角 static heeling angle以评估船舶的性能。

作文

The concept of the static heeling angle is crucial in the field of naval architecture and marine engineering. It refers to the angle at which a vessel tilts or heels when subjected to external forces, such as wind or waves, while remaining at rest in the water. Understanding this angle is essential for ensuring the stability and safety of ships, especially during rough sea conditions. When a ship is at rest, it is affected by various forces. The most significant of these forces is the wind, which can create a lateral force on the vessel's superstructure. This force causes the ship to heel over to one side, creating a static heeling angle. The larger this angle, the greater the risk of capsizing. Therefore, naval architects must carefully consider the design of the ship to minimize this angle under different loading conditions.To calculate the static heeling angle, engineers typically use a combination of mathematical models and physical testing. They analyze the center of gravity and the center of buoyancy of the vessel, which are critical in determining how the ship will respond to external forces. A well-designed ship will have a low static heeling angle, indicating that it can withstand higher winds without tipping over. Moreover, the static heeling angle is not only important for the safety of the vessel but also for the comfort of its crew and passengers. A ship that heels excessively can cause discomfort and even injury to those on board. Therefore, maintaining an optimal static heeling angle is essential for both operational efficiency and the overall experience of everyone aboard. In addition to the design aspects, the static heeling angle can also be influenced by the loading of the ship. If cargo is unevenly distributed, it can raise the center of gravity, leading to a higher heel angle. This is why proper loading procedures are vital in maritime operations. Crew members must be trained to understand how their actions can impact the static heeling angle and, consequently, the vessel's stability. In conclusion, the static heeling angle is a fundamental aspect of maritime safety and design. It encapsulates the balance between external forces acting on a vessel and its inherent design characteristics. By understanding and managing this angle, naval architects and marine engineers can ensure that ships remain safe and stable, providing a secure environment for all who travel upon them. As we continue to advance in ship design and engineering practices, the importance of the static heeling angle will undoubtedly remain a key focus in the quest for safer seas.

静态倾斜角的概念在海洋建筑和海洋工程领域至关重要。它指的是当一艘船只在水中静止时，受到外力（如风或波浪）的影响而倾斜或倾斜的角度。理解这个角度对于确保船只的稳定性和安全性至关重要，尤其是在恶劣的海况下。当船只静止时，会受到各种力量的影响。其中最重要的力量是风，它会对船只的上层建筑产生横向作用力。这种力量使船只向一侧倾斜，形成一个静态倾斜角。这个角度越大，翻覆的风险就越大。因此，海洋建筑师必须仔细考虑船只的设计，以在不同的装载条件下最小化这个角度。为了计算静态倾斜角，工程师通常使用数学模型和物理测试的组合。他们分析船只的重心和浮心，这对于确定船只如何响应外部力量至关重要。一艘设计良好的船只将具有较低的静态倾斜角，表明它可以在不翻覆的情况下承受更高的风速。此外，静态倾斜角不仅对船只的安全性重要，也对船员和乘客的舒适性至关重要。过度倾斜的船只可能会导致船上人员的不适甚至受伤。因此，保持最佳的静态倾斜角对于操作效率和所有人乘坐的整体体验都是至关重要的。除了设计方面，静态倾斜角还会受到船只装载的影响。如果货物分布不均，可能会提高重心，从而导致倾斜角升高。这就是为什么正确的装载程序在海事操作中至关重要的原因。船员必须接受培训，以了解他们的行为如何影响静态倾斜角，从而影响船只的稳定性。总之，静态倾斜角是海事安全和设计的基本方面。它概括了作用于船只的外部力量与其固有设计特性之间的平衡。通过理解和管理这个角度，海洋建筑师和海洋工程师可以确保船只保持安全和稳定，为所有乘坐的人提供安全的环境。随着我们在船舶设计和工程实践中的不断进步，静态倾斜角的重要性无疑将继续成为追求安全海域的关键焦点。