wave damper

简明释义

消波装置

英英释义

例句

1.Using a wave damper can significantly improve the stability of floating structures.

使用波浪减震器可以显著提高浮动结构的稳定性。

2.A wave damper is essential for protecting coastal buildings from erosion.

一个波浪减震器对于保护沿海建筑免受侵蚀至关重要。

3.The research team tested a new design for a wave damper in their laboratory.

研究小组在实验室测试了一种新设计的波浪减震器。

4.The engineers installed a wave damper to reduce the impact of ocean waves on the pier.

工程师们安装了一个波浪减震器以减少海浪对码头的冲击。

5.They implemented a wave damper system to enhance the performance of their offshore wind turbines.

他们实施了一个波浪减震器系统，以提高海上风力涡轮机的性能。

作文

In the field of engineering and physics, the concept of a wave damper is crucial for understanding how to control and mitigate the effects of waves in various environments. A wave damper is a device or system designed to reduce the amplitude of waves, thereby minimizing their impact on structures and environments. This technology is particularly important in coastal engineering, where the forces exerted by ocean waves can be significant. By using a wave damper, engineers can protect shorelines, buildings, and other infrastructures from erosion and damage caused by strong waves.The design of a wave damper can vary widely depending on its intended application. For instance, in marine settings, a wave damper might take the form of floating barriers or specialized buoys that absorb wave energy. These devices work by creating turbulence in the water, which dissipates the energy of incoming waves. In contrast, in urban areas, a wave damper could be integrated into the design of waterfront structures, such as piers or breakwaters, to protect them from the relentless force of the sea.Moreover, the effectiveness of a wave damper can be influenced by several factors, including its size, shape, and material composition. Engineers must carefully consider these elements to optimize the performance of the wave damper. For example, larger dampers may be more effective at reducing wave energy but can also be more expensive and challenging to install. On the other hand, smaller dampers may be easier to deploy but might not provide sufficient protection against larger waves.In addition to physical structures, innovative technologies have emerged that utilize advanced materials and designs to create smart wave dampers. These systems can adapt to changing wave conditions in real-time, offering enhanced protection and efficiency. For example, some modern wave dampers are equipped with sensors that monitor wave patterns and adjust their position or configuration accordingly. This responsiveness can significantly improve their effectiveness and reduce maintenance costs over time.The importance of wave dampers extends beyond just protecting infrastructure; they also play a vital role in environmental conservation. By mitigating wave energy, these devices help to preserve natural ecosystems along coastlines, such as coral reefs and mangroves, which are often threatened by strong wave action. In this way, wave dampers contribute to sustainable development by balancing human needs with environmental protection.As climate change continues to influence global sea levels and weather patterns, the demand for effective wave dampers is likely to increase. Coastal cities around the world are facing heightened risks from storm surges and extreme weather events, making it imperative to invest in robust engineering solutions. Researchers and engineers are continually exploring new materials and designs to enhance the capabilities of wave dampers, ensuring they remain effective in an ever-changing environment.In conclusion, the concept of a wave damper is essential for anyone involved in coastal engineering, urban planning, or environmental conservation. Understanding how these devices work and their significance can lead to better decision-making in the face of rising sea levels and increased storm activity. As we move forward, the integration of innovative technologies and sustainable practices will be key to developing effective wave dampers that protect both our infrastructure and the natural environment.

在工程和物理领域，wave damper（波浪阻尼器）的概念对于理解如何控制和减轻各种环境中波浪的影响至关重要。wave damper是一种旨在减少波浪幅度的设备或系统，从而最小化其对结构和环境的影响。这项技术在海岸工程中尤为重要，因为海浪施加的力量可能非常显著。通过使用wave damper，工程师可以保护海岸线、建筑物和其他基础设施免受强波浪造成的侵蚀和损坏。wave damper的设计因其预期应用而异。例如，在海洋环境中，wave damper可能采用浮动屏障或专用浮标的形式，以吸收波浪能量。这些设备通过在水中产生湍流来工作，从而消散来浪的能量。相比之下，在城市地区，wave damper可以集成到海滨结构的设计中，例如码头或防波堤，以保护它们免受海洋的无情冲击。此外，wave damper的有效性受到多个因素的影响，包括其大小、形状和材料组成。工程师必须仔细考虑这些元素，以优化wave damper的性能。例如，较大的阻尼器可能在减少波浪能量方面更有效，但也可能更昂贵且安装困难。另一方面，较小的阻尼器可能更容易部署，但可能无法提供足够的保护以应对较大的波浪。除了物理结构外，利用先进材料和设计的新技术也已经出现，创造了智能wave damper。这些系统可以实时适应变化的波浪条件，提供增强的保护和效率。例如，一些现代的wave damper配备了监测波浪模式的传感器，并根据需要调整其位置或配置。这种响应能力可以显著提高其有效性，并随着时间的推移降低维护成本。wave damper的重要性不仅限于保护基础设施；它们还在环境保护中发挥着至关重要的作用。通过减轻波浪能量，这些设备有助于保护沿海的自然生态系统，如珊瑚礁和红树林，这些生态系统常常受到强波浪的威胁。通过这种方式，wave damper有助于可持续发展，在满足人类需求与环境保护之间取得平衡。随着气候变化继续影响全球海平面和天气模式，对有效wave damper的需求可能会增加。世界各地的沿海城市面临着来自风暴潮和极端天气事件的加剧风险，因此投资于稳健的工程解决方案势在必行。研究人员和工程师不断探索新材料和设计，以增强wave damper的能力，确保它们在不断变化的环境中保持有效。总之，wave damper的概念对任何参与海岸工程、城市规划或环境保护的人来说都是至关重要的。理解这些设备的工作原理及其重要性可以促进在面对海平面上升和暴风活动增加时做出更好的决策。随着我们向前发展，创新技术和可持续实践的结合将是开发有效wave damper的关键，以保护我们的基础设施和自然环境。