towing tank

简明释义

船模试验池

英英释义

例句

1.Using a towing tank allows engineers to simulate real-world conditions for marine vehicles.

使用拖曳水槽可以让工程师模拟海洋车辆的真实环境条件。

2.In the towing tank, we tested various hull shapes to determine which was the most efficient.

在拖曳水槽中，我们测试了各种船体形状，以确定哪种形状最有效。

3.The towing tank is equipped with advanced sensors to measure resistance and propulsion forces.

该拖曳水槽配备了先进的传感器，用于测量阻力和推进力。

4.The researchers conducted experiments in the towing tank to analyze the hydrodynamic performance of the new ship design.

研究人员在拖曳水槽中进行实验，以分析新船设计的水动力性能。

5.The university's towing tank facility is open for both research and commercial projects.

该大学的拖曳水槽设施对研究和商业项目开放。

作文

A towing tank is an essential facility used in the field of naval architecture and marine engineering. It is a large, specially designed tank where model ships or other marine structures are tested for their hydrodynamic properties. The primary purpose of a towing tank is to simulate real-world conditions in a controlled environment, allowing engineers to analyze how different designs will perform in water. This is crucial for ensuring the safety, efficiency, and performance of vessels before they are built on a full scale.The operation of a towing tank involves towing a scale model of a ship through the water, while measuring various forces acting on it, such as drag, lift, and resistance. These measurements help engineers understand how the shape and size of a vessel affect its movement through water. By using a towing tank, designers can make informed decisions about modifications to improve performance and reduce fuel consumption.In addition to testing ship models, towing tanks are used for a variety of research purposes. For instance, they can be employed to study the effects of waves on structures, the behavior of underwater vehicles, and the dynamics of floating bodies. Researchers can also investigate the impact of different materials and coatings on hydrodynamic performance within a towing tank. This research is vital for advancing technology in marine transportation and offshore engineering.One of the significant advantages of using a towing tank is the ability to conduct experiments in a controlled environment. Unlike open water testing, which can be influenced by unpredictable weather and currents, a towing tank provides a stable platform for accurate measurements. This control allows for repeatable tests, which is essential for validating theoretical models and simulations.Furthermore, the data obtained from towing tank experiments can be used to refine computational fluid dynamics (CFD) models. CFD is a powerful tool that uses numerical analysis to predict how fluids behave around objects. By comparing experimental results from a towing tank with CFD simulations, engineers can improve their modeling techniques, leading to better design outcomes.In conclusion, a towing tank is a vital resource for the marine industry, providing valuable insights into the behavior of vessels and structures in water. Its ability to facilitate controlled experiments and contribute to research makes it indispensable for engineers and researchers alike. As the demand for more efficient and environmentally friendly marine transportation continues to grow, the role of towing tanks in developing innovative solutions will only become more critical.

拖曳水槽是海洋建筑和海洋工程领域的重要设施。它是一个大型的、专门设计的水槽，用于测试模型船或其他海洋结构的水动力特性。拖曳水槽的主要目的是在受控环境中模拟现实条件，使工程师能够分析不同设计在水中的表现。这对于确保船只在建造前的安全性、效率和性能至关重要。拖曳水槽的操作涉及将船舶的比例模型在水中拖曳，同时测量作用在其上的各种力，如阻力、升力和抗力。这些测量帮助工程师理解船体的形状和大小如何影响其在水中的运动。通过使用拖曳水槽，设计师可以做出明智的决定，以改善性能并减少燃料消耗。除了测试船舶模型外，拖曳水槽还用于多种研究目的。例如，它们可以用于研究波浪对结构的影响、水下航行器的行为以及漂浮物体的动力学。研究人员还可以调查不同材料和涂层对水动力性能的影响，这在拖曳水槽内进行。这项研究对于推动海洋运输和海上工程技术的发展至关重要。使用拖曳水槽的一个重大优势是能够在受控环境中进行实验。与可能受到不可预测的天气和水流影响的开放水域测试不同，拖曳水槽提供了一个稳定的平台用于准确测量。这种控制使得可重复测试成为可能，这对于验证理论模型和模拟至关重要。此外，从拖曳水槽实验中获得的数据可以用于改进计算流体动力学（CFD）模型。CFD是一种强大的工具，利用数值分析预测流体在物体周围的行为。通过将拖曳水槽的实验结果与CFD模拟进行比较，工程师可以改善他们的建模技术，从而导致更好的设计结果。总之，拖曳水槽是海洋工业的重要资源，为船舶和水中结构的行为提供了宝贵的见解。它促进受控实验并为研究做出贡献的能力使其对工程师和研究人员而言不可或缺。随着对更高效和环保的海洋运输需求的不断增长，拖曳水槽在开发创新解决方案中的作用将变得更加重要。