dynamical heeling angle

简明释义

动倾角

英英释义

例句

1.The captain called for a course adjustment based on the current dynamical heeling angle 动态倾斜角 readings.

船长根据当前的动态倾斜角 dynamical heeling angle 读数要求调整航向。

2.The sailor adjusted the sails to optimize the dynamical heeling angle 动态倾斜角 for better stability in rough waters.

水手调整了帆，以优化在恶劣水域中的动态倾斜角 dynamical heeling angle，以提高稳定性。

3.Engineers used simulations to predict the dynamical heeling angle 动态倾斜角 of the yacht under various wind conditions.

工程师使用模拟来预测游艇在不同风况下的动态倾斜角 dynamical heeling angle。

4.Understanding the dynamical heeling angle 动态倾斜角 is crucial for designing safer vessels.

理解动态倾斜角 dynamical heeling angle 对于设计更安全的船舶至关重要。

5.During the race, the team monitored the dynamical heeling angle 动态倾斜角 to ensure maximum speed without capsizing.

在比赛期间，团队监测动态倾斜角 dynamical heeling angle，以确保在不翻船的情况下达到最大速度。

作文

The concept of dynamical heeling angle is crucial in the field of naval architecture and marine engineering. It refers to the angle at which a vessel leans or tilts due to external forces, such as wind or waves, while in motion. Understanding this angle is essential for ensuring the stability and safety of a ship during its journey across the seas. When a ship encounters strong winds or turbulent waters, it experiences a change in its orientation, which can be quantified as the dynamical heeling angle.

To comprehend the significance of the dynamical heeling angle, one must first recognize the forces acting upon a ship. As a vessel sails, it is subjected to various dynamic forces, including buoyancy, gravity, and hydrodynamic resistance. The interaction of these forces determines the ship's stability. If the dynamical heeling angle exceeds a certain threshold, the risk of capsizing increases dramatically. Therefore, naval architects meticulously design ships to withstand specific heeling angles under various conditions.

Moreover, the dynamical heeling angle is not static; it changes with the ship's speed, direction, and the intensity of external forces. For instance, a larger dynamical heeling angle may occur during sharp turns or when a ship is navigating through rough waters. This variability makes it imperative for sailors and engineers to continuously monitor the heeling angle to ensure that it remains within safe limits.

In practical terms, the dynamical heeling angle can be measured using specialized instruments onboard a ship. These instruments provide real-time data, allowing the crew to make informed decisions regarding course adjustments or speed reductions. Additionally, modern simulation technologies enable engineers to predict the dynamical heeling angle under different scenarios, aiding in the design process of new vessels.

Furthermore, understanding the dynamical heeling angle has implications beyond just ship design and operation. It plays a vital role in maritime safety regulations and guidelines. Regulatory bodies often set standards for maximum allowable heeling angles to minimize the risk of accidents at sea. Compliance with these standards is essential for obtaining certifications and ensuring the safety of both the crew and cargo.

In conclusion, the dynamical heeling angle is a fundamental aspect of maritime operations that influences ship design, safety measures, and navigational practices. By grasping the dynamics behind this concept, maritime professionals can enhance the safety and efficiency of their vessels. Continuous research and technological advancements will further improve our understanding and management of the dynamical heeling angle, ultimately contributing to safer seas for all who traverse them.

“动态倾斜角”这一概念在海洋建筑和海洋工程领域至关重要。它指的是由于外部力量（如风或波浪）作用下，船舶在运动中倾斜或倾倒的角度。理解这个角度对于确保船舶在航行过程中的稳定性和安全性至关重要。当船舶遭遇强风或湍急水流时，其方向会发生变化，这可以量化为“动态倾斜角”。

要理解“动态倾斜角”的重要性，首先必须认识到作用于船舶的力。船舶航行时，受到多种动态力量的影响，包括浮力、重力和水动力阻力。这些力量的相互作用决定了船舶的稳定性。如果“动态倾斜角”超过某一阈值，翻船的风险将显著增加。因此，海洋建筑师精心设计船舶，以承受在各种条件下特定的倾斜角。

此外，“动态倾斜角”并不是静态的；它随着船舶的速度、方向和外部力量的强度而变化。例如，在急转弯或船舶穿越波涛汹涌的水域时，可能会出现较大的“动态倾斜角”。这种变化性使得水手和工程师必须持续监测倾斜角，以确保其保持在安全范围内。

在实际操作中，可以使用专门的仪器来测量“动态倾斜角”。这些仪器提供实时数据，使船员能够就航向调整或减速做出明智的决策。此外，现代仿真技术使工程师能够预测不同场景下的“动态倾斜角”，从而有助于新船舶的设计过程。

此外，理解“动态倾斜角”不仅对船舶设计和操作有影响。它在海事安全法规和指南中也发挥着重要作用。监管机构通常设定最大允许倾斜角的标准，以降低海上事故的风险。遵守这些标准对于获得认证和确保船员及货物的安全至关重要。

总之，“动态倾斜角”是影响船舶设计、安全措施和航行实践的基本方面。通过掌握这一概念背后的动态关系，海事专业人员可以提高其船舶的安全性和效率。持续的研究和技术进步将进一步改善我们对“动态倾斜角”的理解和管理，从而为所有航行于此的人员创造更安全的海域。