angle of deck edge immersion

简明释义

甲板边缘浸水角

英英释义

例句

1.The naval architect calculated the angle of deck edge immersion to ensure the vessel would not take on water during rough seas.

海军建筑师计算了甲板边缘浸没角以确保船只在恶劣海况下不会进水。

2.During the stability test, we measured the angle of deck edge immersion to evaluate the ship's performance.

在稳定性测试中，我们测量了甲板边缘浸没角以评估船舶的性能。

3.A lower angle of deck edge immersion can indicate a safer vessel in turbulent conditions.

较低的甲板边缘浸没角可能表明在动荡条件下船只更安全。

4.Understanding the angle of deck edge immersion is crucial for preventing capsizing in high waves.

了解甲板边缘浸没角对于防止在高波浪中翻船至关重要。

5.The design team adjusted the hull shape to optimize the angle of deck edge immersion for better stability.

设计团队调整了船体形状，以优化甲板边缘浸没角以获得更好的稳定性。

作文

The design and stability of a ship are crucial factors that determine its performance in various sea conditions. One important aspect of ship design is the angle of deck edge immersion, which refers to the angle at which the edge of the deck becomes submerged in water when the ship is tilted or heeled. This angle plays a significant role in understanding how a vessel will behave under different loading conditions and sea states.When a ship sails, it encounters waves and wind, which can cause it to tilt to one side. The angle of deck edge immersion is vital for naval architects as it helps them assess the risk of water entering the vessel. If the angle exceeds a certain threshold, water may start to flow over the edge of the deck, leading to potential flooding and compromising the safety of the ship and its crew.To ensure a ship's safety, designers must calculate the angle of deck edge immersion during the design phase. This involves considering factors such as the ship's overall shape, weight distribution, and the materials used in construction. By optimizing these elements, naval architects can create vessels that maintain a safe angle even in rough seas.Moreover, the angle of deck edge immersion also influences the ship's stability. A vessel with a higher angle of immersion may become unstable more quickly, leading to a greater risk of capsizing. Therefore, understanding this angle allows for better decision-making in terms of cargo loading and ballast management. Ship operators must be aware of their vessel's limits and adjust their operations accordingly to prevent accidents.In addition to safety considerations, the angle of deck edge immersion has implications for the ship's performance and efficiency. A well-designed ship that maintains an optimal angle can reduce drag and improve fuel efficiency. This is particularly important in today’s maritime industry, where operational costs are paramount. By focusing on the angle of deck edge immersion, shipbuilders can contribute to creating more sustainable and economically viable vessels.Furthermore, advancements in technology have enabled more precise measurements and simulations regarding the angle of deck edge immersion. Computer-aided design (CAD) software and hydrodynamic modeling allow engineers to predict how a ship will react in various scenarios, thus enhancing the design process. With these tools, designers can experiment with different shapes and configurations to find the best solutions for minimizing the angle of immersion.In conclusion, the angle of deck edge immersion is a critical parameter in naval architecture that affects a ship's safety, stability, and performance. Understanding this concept not only helps in the design and construction of safer ships but also plays a significant role in operational efficiency. As the maritime industry continues to evolve, the importance of mastering the angle of deck edge immersion will remain a key focus for engineers and ship operators alike. By prioritizing this aspect of ship design, we can ensure that vessels are better equipped to handle the challenges posed by the open sea.

船舶的设计和稳定性是决定其在各种海况下性能的关键因素。一个重要的船舶设计方面是甲板边缘浸没角，它指的是当船舶倾斜或倾斜时，甲板边缘在水中沉没的角度。这个角度在理解船只在不同装载条件和海况下的行为时起着重要作用。当船舶航行时，它会遇到波浪和风，这可能导致船舶向一侧倾斜。甲板边缘浸没角对海军建筑师至关重要，因为它帮助他们评估船只进水的风险。如果这个角度超过某个阈值，水可能会开始流过甲板的边缘，从而导致潜在的洪水，危及船舶及其船员的安全。为了确保船舶的安全，设计师必须在设计阶段计算甲板边缘浸没角。这涉及考虑船舶的整体形状、重量分布以及所用材料。在优化这些元素的过程中，海军建筑师可以创建在恶劣海况下仍能保持安全角度的船舶。此外，甲板边缘浸没角也影响船舶的稳定性。具有较高浸没角的船舶可能更快变得不稳定，从而增加倾覆的风险。因此，了解这个角度可以更好地进行货物装载和压舱管理的决策。船舶运营者必须了解其船舶的极限，并相应调整操作，以防止事故发生。除了安全考虑外，甲板边缘浸没角还对船舶的性能和效率产生影响。设计良好的船舶能够保持最佳角度，可以减少阻力并提高燃油效率。这在当今的海运行业中尤为重要，因为运营成本至关重要。通过关注甲板边缘浸没角，造船商可以为创造更可持续和经济可行的船舶做出贡献。此外，技术的进步使得关于甲板边缘浸没角的更精确的测量和模拟成为可能。计算机辅助设计（CAD）软件和水动力建模使工程师能够预测船舶在各种情况下的反应，从而增强设计过程。借助这些工具，设计师可以尝试不同的形状和配置，以找到最小化浸没角的最佳解决方案。总之，甲板边缘浸没角是海军建筑中一个关键参数，影响船舶的安全性、稳定性和性能。理解这一概念不仅有助于船舶的设计和建造，更在操作效率中发挥着重要作用。随着海运行业的不断发展，掌握甲板边缘浸没角的重要性将继续成为工程师和船舶运营者的重点关注。通过优先考虑这一船舶设计的方面，我们可以确保船舶更好地应对开放海洋带来的挑战。