heeling tank

简明释义

倾斜柜

英英释义

例句

1.The design team used the heeling tank to evaluate the new hull shape.

设计团队使用倾斜水槽评估新的船体形状。

2.Before launching the boat, they performed a test in the heeling tank.

在船只下水之前，他们在倾斜水槽中进行了测试。

3.In the engineering lab, the students learned how to operate the heeling tank for their experiments.

在工程实验室，学生们学习如何操作倾斜水槽进行实验。

4.The ship's stability was tested using the heeling tank.

这艘船的稳定性是通过使用倾斜水槽进行测试的。

5.The heeling tank simulates the effects of wind on the vessel.

该倾斜水槽模拟了风对船只的影响。

作文

The concept of a heeling tank is crucial in the field of naval architecture and marine engineering. A heeling tank is essentially a specialized tank used to simulate the effects of heel on a ship or boat. Heel refers to the angle at which a vessel tilts to one side, usually due to wind pressure, waves, or uneven loading. Understanding how a vessel behaves under various conditions is vital for ensuring its stability and safety. In this essay, we will explore the importance of heeling tanks, their applications, and the technology behind them.Firstly, heeling tanks are indispensable tools in the design and testing phases of shipbuilding. Engineers utilize these tanks to conduct experiments that replicate real-world conditions a vessel might encounter at sea. By adjusting the water levels and angles within the heeling tank, they can observe how different designs respond to heel. This experimentation helps in optimizing the hull shape, weight distribution, and overall design of the vessel to minimize the risk of capsizing.Moreover, heeling tanks play a significant role in training sailors and maritime professionals. Simulators equipped with heeling tanks provide hands-on experience for trainees, allowing them to understand the dynamics of a vessel in a controlled environment. This practical knowledge is essential for developing skills necessary for operating ships safely and effectively. The ability to practice maneuvers that involve heel without the risks associated with being at sea is invaluable for building confidence and competence among future mariners.In addition to training and design, heeling tanks are also used for research purposes. Scientists and researchers study the fluid dynamics involved when a vessel heels, gaining insights into how water interacts with the hull. This research can lead to advancements in ship design, improving fuel efficiency and reducing environmental impact. Understanding the behavior of vessels in relation to heel can also contribute to better regulations and safety standards in the maritime industry.Furthermore, the technology behind heeling tanks has evolved significantly over the years. Modern heeling tanks often incorporate sophisticated computer simulations and modeling techniques. These advancements allow for more accurate predictions of a vessel's behavior under various conditions, enhancing the reliability of the data collected during tests. Engineers can analyze the results using computational fluid dynamics (CFD) software, leading to more informed decisions in the design process.In conclusion, the heeling tank is an essential component in the maritime industry, serving multiple purposes from design and testing to training and research. Its ability to simulate the effects of heel provides invaluable data that contributes to the safety and efficiency of vessels. As technology continues to advance, the role of heeling tanks will only become more significant, ensuring that ships are built to withstand the challenges of the open sea. Understanding and utilizing the heeling tank effectively can lead to safer voyages and a more sustainable maritime future.

“倾斜水槽”的概念在海洋建筑和海洋工程领域至关重要。heeling tank 本质上是一个专门的水槽，用于模拟船只或小艇倾斜的效果。倾斜是指船只由于风压、波浪或不均匀装载而向一侧倾斜的角度。理解船只在各种条件下的行为对于确保其稳定性和安全性至关重要。在这篇文章中，我们将探讨 heeling tanks 的重要性、应用以及其背后的技术。首先，heeling tanks 是造船设计和测试阶段不可或缺的工具。工程师利用这些水槽进行实验，复制船只在海上可能遇到的实际条件。通过调整 heeling tank 内的水位和角度，他们可以观察不同设计对倾斜的反应。这种实验有助于优化船体形状、重量分布和整体设计，以最小化翻覆的风险。此外，heeling tanks 在培训水手和海事专业人士方面也发挥着重要作用。配备 heeling tanks 的模拟器为学员提供了实践经验，使他们能够在受控环境中理解船只的动态。这种实践知识对于培养安全有效操作船只所需的技能至关重要。在没有海上风险的情况下练习涉及倾斜的操作，极大地增强了未来海员的信心和能力。除了培训和设计，heeling tanks 还用于研究目的。科学家和研究人员研究船只倾斜时的流体动力学，深入了解水与船体的相互作用。这项研究可以推动船舶设计的进步，提高燃油效率并减少对环境的影响。理解船只与倾斜之间的关系也可以促进海事行业更好的法规和安全标准。此外，heeling tanks 背后的技术近年来已经显著发展。现代 heeling tanks 通常结合复杂的计算机模拟和建模技术。这些进步使得在各种条件下更准确地预测船只行为成为可能，从而增强了测试过程中收集数据的可靠性。工程师可以使用计算流体动力学（CFD）软件分析结果，从而在设计过程中做出更明智的决策。总之，heeling tank 是海事行业的重要组成部分，服务于设计、测试、培训和研究等多个目的。它模拟倾斜的效果，提供了宝贵的数据，有助于船只的安全性和效率。随着技术的不断进步，heeling tanks 的角色将变得更加重要，确保船只能够抵御开放海洋的挑战。有效理解和利用 heeling tank 可以带来更安全的航行和更可持续的海事未来。