heeling experiment

简明释义

倾斜试验

英英释义

例句

1.The researchers conducted a heeling experiment to study the effects of weight distribution on stability.

研究人员进行了一个倾斜实验，以研究重量分布对稳定性的影响。

2.During the heeling experiment, the boat was intentionally tilted to measure its response.

在倾斜实验中，船被故意倾斜以测量其反应。

3.The findings from the heeling experiment were crucial for improving ship design.

来自倾斜实验的发现对改善船舶设计至关重要。

4.The heeling experiment helped us understand how cargo placement affects vessel performance.

这个倾斜实验帮助我们理解货物放置如何影响船舶性能。

5.We used a simulator to perform a heeling experiment under various conditions.

我们使用模拟器在各种条件下进行了一次倾斜实验。

作文

The concept of a heeling experiment is crucial in the field of naval architecture and marine engineering. In simple terms, a heeling experiment refers to a controlled test conducted to measure how a ship or boat behaves when it is tilted or heeled over to one side. This experiment helps engineers understand the stability of the vessel under various conditions, which is essential for ensuring safety at sea. The process typically involves loading the ship with weights and then observing how it responds to different angles of heel. One of the primary objectives of a heeling experiment is to determine the center of gravity and the metacenter of the vessel. The center of gravity is the point where the weight of the ship is balanced, while the metacenter is a point that helps assess the ship's stability. By conducting a heeling experiment, engineers can calculate the righting arm, which is the distance between the center of gravity and the metacenter when the ship is heeled over. A larger righting arm indicates better stability, meaning the ship will return to an upright position more effectively after being tilted. In addition to measuring stability, a heeling experiment also provides valuable data on the performance of the vessel in real-world conditions. For instance, when a ship is loaded with cargo, its weight distribution changes, affecting how it handles waves and wind. By simulating these conditions during a heeling experiment, engineers can predict how the ship will perform in various scenarios, allowing them to make necessary adjustments before the vessel is put into service. Furthermore, a heeling experiment is not only important for new designs but also for existing vessels. Older ships may need retrofitting or modifications to improve their stability. Conducting a heeling experiment on these vessels can reveal potential issues that could compromise safety, enabling ship owners to take corrective measures. The implications of a heeling experiment extend beyond just technical specifications; they also encompass regulatory compliance. Maritime authorities require vessels to meet specific stability criteria to ensure the safety of passengers and crew. A well-conducted heeling experiment can provide the necessary documentation to demonstrate that a ship meets these standards. In conclusion, a heeling experiment is a vital procedure in the maritime industry that assesses the stability and performance of vessels. Through careful measurement and analysis, engineers can ensure that ships are safe, reliable, and capable of handling the challenges of the open sea. As technology advances, the methods used in heeling experiments continue to evolve, incorporating sophisticated modeling and simulation techniques. Nevertheless, the fundamental principles behind these experiments remain essential for the design and operation of seafaring vessels. In summary, the heeling experiment plays a significant role in enhancing maritime safety and efficiency. By understanding the dynamics of vessel behavior through these experiments, we can better prepare for the unpredictable nature of the ocean, ultimately saving lives and resources.

“倾斜实验”的概念在海洋建筑和海洋工程领域至关重要。简单来说，倾斜实验是指进行控制测试，以测量船只或小艇在倾斜或向一侧倾斜时的表现。这个实验帮助工程师了解船只在各种条件下的稳定性，这对于确保海上安全至关重要。该过程通常涉及用重物装载船只，然后观察它在不同倾斜角度下的反应。倾斜实验的主要目标之一是确定船只的重心和元心。重心是船只重量平衡的点，而元心是一个帮助评估船只稳定性的点。通过进行倾斜实验，工程师可以计算复位臂，即船只倾斜时重心与元心之间的距离。较大的复位臂表示更好的稳定性，这意味着船只在倾斜后将更有效地恢复到直立位置。除了测量稳定性外，倾斜实验还提供有关船只在实际条件下表现的宝贵数据。例如，当船只装载货物时，其重量分布会发生变化，影响其在波浪和风中的操控性。通过在倾斜实验中模拟这些条件，工程师可以预测船只在各种场景中的表现，从而在船只投入服务之前进行必要的调整。此外，倾斜实验不仅对新设计重要，对于现有船只也同样重要。老旧船只可能需要改造或修改以提高其稳定性。对这些船只进行倾斜实验可以揭示可能危及安全的潜在问题，使船东能够采取纠正措施。倾斜实验的意义不仅限于技术规范，还包括合规性。海事当局要求船只满足特定的稳定性标准，以确保乘客和船员的安全。经过良好实施的倾斜实验可以提供必要的文档，以证明船只符合这些标准。总之，倾斜实验是在海事行业中评估船只稳定性和性能的重要程序。通过仔细的测量和分析，工程师可以确保船只安全、可靠，并能够应对开放海洋的挑战。随着技术的进步，倾斜实验中使用的方法不断演变，融入了复杂的建模和仿真技术。然而，这些实验背后的基本原则仍然对海上航行器的设计和操作至关重要。总结而言，倾斜实验在增强海事安全和效率方面发挥着重要作用。通过理解这些实验中船只行为的动态，我们可以更好地为海洋不可预测的特性做好准备，最终拯救生命和资源。