wind-wave tank

简明释义

风浪模拟水池

英英释义

例句

1.Our university has a state-of-the-art wind-wave tank 风浪水槽 for hydraulic research.

我们的大学拥有一个最先进的风浪水槽 风浪水槽用于水力研究。

2.Using a wind-wave tank 风浪水槽, researchers can simulate real ocean conditions for their experiments.

研究人员可以利用风浪水槽 风浪水槽模拟真实的海洋条件进行实验。

3.The engineers tested the new coastal structure in the wind-wave tank 风浪水槽 to ensure its durability against strong storms.

工程师们在风浪水槽 风浪水槽中测试了新的海岸结构，以确保其能抵御强风暴的耐久性。

4.The wind-wave tank 风浪水槽 allows scientists to study the effects of waves on different types of marine structures.

该风浪水槽 风浪水槽使科学家能够研究波浪对不同类型海洋结构的影响。

5.The design team used the wind-wave tank 风浪水槽 to refine their model before construction.

设计团队在施工前使用风浪水槽 风浪水槽来完善他们的模型。

作文

In the field of ocean engineering and coastal studies, the term wind-wave tank refers to a specialized facility designed to simulate the interactions between wind and water waves. These tanks are crucial for researchers and engineers who seek to understand how structures behave in marine environments. The primary purpose of a wind-wave tank is to replicate real-world conditions where waves and wind interact, allowing scientists to conduct experiments that would be difficult or impossible to perform in nature.A typical wind-wave tank consists of a large body of water where waves can be generated and controlled. Wind is produced using large fans or blowers, creating a realistic environment that mimics the forces experienced at sea. Researchers can adjust various parameters such as wave height, frequency, and wind speed to study their effects on different materials and structures. This ability to manipulate environmental conditions makes the wind-wave tank an invaluable tool for testing the durability and stability of offshore platforms, breakwaters, and other coastal structures.One of the significant advantages of using a wind-wave tank is the ability to conduct experiments in a controlled setting. Unlike field tests, which are subject to unpredictable weather conditions and other variables, a tank allows for repeatable and consistent results. This control is essential for validating theoretical models and ensuring that designs meet safety standards before they are implemented in real-world scenarios.Furthermore, the data obtained from a wind-wave tank can lead to innovative solutions in coastal engineering. For instance, understanding how different shapes and materials respond to wave action can help in designing more resilient structures that can withstand extreme weather events. Additionally, these experiments can inform policies related to coastal management and environmental protection, ensuring that development does not compromise the natural balance of marine ecosystems.The applications of a wind-wave tank extend beyond just structural testing. It can also be used to study sediment transport, wave energy generation, and the impact of climate change on ocean dynamics. By simulating various scenarios, researchers can gain insights into the potential consequences of rising sea levels and increased storm intensity, helping communities prepare for future challenges.In conclusion, the wind-wave tank serves as a critical resource in the study of oceanic processes and coastal engineering. By providing a controlled environment for experimentation, it allows researchers to gather valuable data that can lead to safer, more efficient designs for structures facing the relentless forces of nature. As we continue to grapple with the effects of climate change and human activity on our oceans, the importance of facilities like the wind-wave tank cannot be overstated. They not only enhance our understanding of marine environments but also play a vital role in protecting our coastal communities and ecosystems.

在海洋工程和沿海研究领域，短语wind-wave tank指的是一种专门的设施，用于模拟风与水波之间的相互作用。这些水槽对于研究人员和工程师来说至关重要，他们寻求了解结构在海洋环境中的表现。wind-wave tank的主要目的是复制真实世界中风和波浪相互作用的条件，从而允许科学家进行在自然环境中难以或不可能进行的实验。一个典型的wind-wave tank由一大块水体组成，可以生成和控制波浪。风则通过大型风扇或鼓风机产生，创造出一种逼真的环境，模拟海洋中所经历的力量。研究人员可以调整各种参数，如波高、频率和风速，以研究它们对不同材料和结构的影响。这种操控环境条件的能力使得wind-wave tank成为测试海上平台、护岸和其他沿海结构耐久性和稳定性的重要工具。使用wind-wave tank的一个显著优势是能够在受控环境中进行实验。与受不可预测天气条件和其他变量影响的现场测试不同，水槽允许获得可重复且一致的结果。这种控制对于验证理论模型和确保设计符合安全标准至关重要，在这些设计真正应用于现实场景之前。此外，从wind-wave tank获得的数据可以促成沿海工程领域的创新解决方案。例如，了解不同形状和材料如何应对波浪作用，可以帮助设计出更具韧性的结构，以承受极端天气事件。此外，这些实验还可以为沿海管理和环境保护相关政策提供信息，确保开发不会破坏海洋生态系统的自然平衡。wind-wave tank的应用不仅限于结构测试。它还可以用于研究沉积物运输、波浪能发电以及气候变化对海洋动态的影响。通过模拟各种情境，研究人员可以深入了解海平面上升和风暴强度增加的潜在后果，帮助社区为未来挑战做好准备。总之，wind-wave tank在海洋过程和沿海工程研究中起着关键作用。通过提供一个受控的实验环境，它使研究人员能够收集有价值的数据，从而为面对自然无情力量的结构设计提供更安全、更高效的方案。随着我们继续应对气候变化和人类活动对海洋的影响，像wind-wave tank这样的设施的重要性不容小觑。它们不仅增强了我们对海洋环境的理解，还在保护我们的沿海社区和生态系统方面发挥着重要作用。