heeling experiment

简明释义

横倾试验

英英释义

例句

1.We used a simulator for our heeling experiment to predict the performance of the yacht.

我们使用模拟器进行我们的倾斜实验，以预测游艇的性能。

2.The results of the heeling experiment showed that stability decreases as the angle increases.

该倾斜实验的结果表明，随着角度的增加，稳定性下降。

3.During the heeling experiment, we measured the angle of the boat's tilt.

在倾斜实验期间，我们测量了船的倾斜角度。

4.The heeling experiment was crucial for designing safer sailing vessels.

这个倾斜实验对于设计更安全的航行船只至关重要。

5.The team conducted a heeling experiment to understand how the boat would react in rough waters.

团队进行了一个倾斜实验，以了解船在恶劣水域中的反应。

作文

The concept of a heeling experiment is primarily associated with the field of naval architecture and marine engineering. It involves analyzing how a ship behaves when it is tilted or 'heeled' to one side due to external forces such as wind or waves. Understanding this behavior is crucial for ensuring the safety and stability of vessels at sea. In essence, a heeling experiment helps engineers and designers determine the limits of a ship's stability and its ability to recover from tilting. To conduct a heeling experiment, researchers typically use a model of the ship in a controlled environment, such as a wave tank or a towing tank. By applying various forces to the model, they can observe how it responds to different conditions. This experimentation allows them to calculate the center of gravity and the metacentric height, which are vital parameters for assessing a ship's stability. The results from these experiments provide valuable data that informs the design process, ensuring that vessels are built to withstand the rigors of the open sea.The importance of heeling experiments cannot be overstated. Ships are subjected to numerous forces during their operation, and understanding how they react to these forces is essential for preventing accidents and improving overall performance. For instance, if a ship is designed without adequate consideration for its heeling characteristics, it may become unstable in rough seas, leading to capsizing or other dangerous situations. Therefore, conducting thorough heeling experiments during the design phase is critical for maritime safety.In addition to safety considerations, heeling experiments also play a role in optimizing the performance of vessels. By understanding how a ship behaves under different conditions, designers can make informed decisions about hull shape, weight distribution, and other factors that influence speed and maneuverability. This optimization not only enhances the efficiency of the vessel but also contributes to fuel savings and reduced environmental impact.Moreover, the findings from heeling experiments have applications beyond naval architecture. They can inform the design of floating structures, such as offshore platforms and buoys, which also need to maintain stability in changing environmental conditions. As the demand for sustainable energy sources increases, understanding the heeling behavior of these structures becomes increasingly important.In conclusion, the heeling experiment is a fundamental aspect of maritime engineering, providing critical insights into the stability and performance of ships. Through careful experimentation and analysis, engineers can ensure that vessels are safe, efficient, and capable of navigating the challenges of the sea. As the maritime industry continues to evolve, the role of heeling experiments will remain vital in advancing ship design and enhancing safety standards across the globe.

“倾斜实验”的概念主要与海洋建筑和海洋工程领域相关。它涉及分析船只在外部力量（如风或波浪）作用下倾斜或“倾斜”到一侧时的行为。理解这种行为对于确保船只在海上的安全和稳定至关重要。从本质上讲，倾斜实验帮助工程师和设计师确定船只稳定性的极限及其从倾斜状态恢复的能力。进行倾斜实验时，研究人员通常会在受控环境中使用船只模型，例如波浪水槽或拖曳水槽。通过对模型施加各种力量，他们可以观察其在不同条件下的反应。这种实验使他们能够计算重心和横摇高度，这是评估船只稳定性的重要参数。这些实验的结果提供了宝贵的数据，指导设计过程，确保船只在建造时能够承受开放海域的考验。倾斜实验的重要性不容小觑。船只在操作过程中会遭受多种力量，理解它们如何对这些力量作出反应对于防止事故和提高整体性能至关重要。例如，如果一艘船的设计没有充分考虑其倾斜特性，它可能会在恶劣海况下变得不稳定，导致倾覆或其他危险情况。因此，在设计阶段进行彻底的倾斜实验对于海事安全至关重要。除了安全考虑外，倾斜实验还在优化船只性能方面发挥作用。通过了解船只在不同条件下的行为，设计师可以对船体形状、重量分布和影响速度和机动性的其他因素做出明智的决策。这种优化不仅提高了船只的效率，还有助于节省燃料和减少对环境的影响。此外，倾斜实验的发现还超越了海洋建筑的应用。它们可以为浮动结构的设计提供信息，例如海上平台和浮标，这些结构也需要在变化的环境条件下保持稳定。随着对可持续能源需求的增加，理解这些结构的倾斜行为变得越来越重要。总之，倾斜实验是海洋工程的基本方面，为船只的稳定性和性能提供了关键见解。通过仔细的实验和分析，工程师可以确保船只安全、高效，能够应对海洋的挑战。随着海事行业的不断发展，倾斜实验在推动船舶设计和提升全球安全标准方面将继续发挥重要作用。