liquidborne noise
简明释义
液体流动噪声
英英释义
Liquidborne noise refers to sound that is transmitted through a liquid medium, such as water or oil, rather than through air or solid materials. | 液体传播噪声是指通过液体介质(如水或油)而非空气或固体材料传播的声音。 |
例句
1.The engineers conducted tests to measure the impact of liquidborne noise on marine life.
工程师们进行了测试,以测量液体传播噪音对海洋生物的影响。
2.The construction project was halted due to concerns about liquidborne noise affecting nearby ecosystems.
由于担心液体传播噪音会影响附近生态系统,建设项目被暂停。
3.Researchers are studying how liquidborne noise influences fish behavior during breeding seasons.
研究人员正在研究液体传播噪音如何影响鱼类在繁殖季节的行为。
4.Acoustic engineers developed a method to reduce liquidborne noise in underwater pipelines.
声学工程师开发了一种减少水下管道中液体传播噪音的方法。
5.In industrial settings, liquidborne noise can affect the performance of sensitive equipment.
在工业环境中,液体传播噪音可能会影响敏感设备的性能。
作文
In our modern world, the impact of noise pollution has become a significant concern. While most people are aware of airborne noise, such as traffic sounds and construction work, few consider the implications of liquidborne noise (液体传播噪声). This term refers to sound that travels through liquids, which can have profound effects on both marine life and human activities. Understanding liquidborne noise is essential for addressing environmental issues and promoting sustainable practices.Firstly, it is important to recognize that liquidborne noise originates from various sources. Common contributors include shipping vessels, underwater construction, and natural phenomena like earthquakes. These sounds can travel long distances underwater, affecting marine ecosystems. For instance, whales and dolphins rely on echolocation to communicate and navigate their surroundings. When liquidborne noise levels increase, these animals may struggle to hear each other, leading to disorientation and difficulty in finding food or mates.Moreover, the effects of liquidborne noise extend beyond just marine creatures. Human activities, particularly those related to industrial development, can produce significant underwater noise. This can interfere with fishing activities, as fish may flee areas with high noise levels, disrupting local economies that depend on fishing. Additionally, the construction of offshore wind farms and oil rigs often generates substantial liquidborne noise, raising concerns about its impact on surrounding marine habitats.Another critical aspect to consider is the regulatory framework surrounding liquidborne noise. Governments and international organizations are beginning to recognize the need for guidelines and regulations to mitigate its effects. For example, the International Maritime Organization (IMO) has initiated discussions on how to manage underwater noise pollution effectively. Implementing such regulations can help protect marine life and preserve biodiversity in our oceans.Furthermore, research into liquidborne noise is still in its infancy. Scientists are working to better understand how different frequencies affect various species and what thresholds are considered harmful. This research is vital for developing strategies to minimize noise pollution. Technologies such as quieter ship designs and noise-reducing construction techniques are being explored to address these challenges.In conclusion, liquidborne noise (液体传播噪声) is an often-overlooked aspect of noise pollution that has significant implications for marine ecosystems and human activities. As we continue to explore our oceans and develop industries that operate within them, it is crucial to consider the impact of liquidborne noise on the environment. By raising awareness and implementing effective regulations, we can work towards a more sustainable future for both marine life and human endeavors. Protecting our oceans from the adverse effects of liquidborne noise should be a priority for everyone who values the health of our planet.
在我们现代世界中,噪音污染的影响已经成为一个重要的关注点。虽然大多数人都意识到空气传播的噪音,比如交通声和建筑声,但很少有人考虑到液体传播噪声(liquidborne noise)的影响。这个术语指的是通过液体传播的声音,这对海洋生物和人类活动都有深远的影响。理解液体传播噪声对于解决环境问题和促进可持续实践至关重要。首先,重要的是要认识到液体传播噪声源于各种来源。常见的贡献者包括船舶、海底建设和自然现象如地震。这些声音可以在水下传播很长距离,影响海洋生态系统。例如,鲸鱼和海豚依赖回声定位进行交流和导航。当液体传播噪声水平增加时,这些动物可能难以听到彼此的声音,从而导致迷失方向和寻找食物或配偶的困难。此外,液体传播噪声的影响不仅限于海洋生物。人类活动,特别是与工业发展相关的活动,可能会产生显著的水下噪音。这可能干扰捕鱼活动,因为鱼类可能会逃离噪音水平较高的区域,破坏依赖捕鱼的地方经济。此外,海上风电场和石油钻井平台的建设通常会产生大量的液体传播噪声,引发对其对周边海洋栖息地影响的担忧。另一个关键方面是围绕液体传播噪声的监管框架。各国政府和国际组织开始认识到需要制定指导方针和法规来减轻其影响。例如,国际海事组织(IMO)已开始讨论如何有效管理水下噪声污染。实施这样的法规可以帮助保护海洋生物并维护我们海洋的生物多样性。此外,对液体传播噪声的研究仍处于起步阶段。科学家们正在努力更好地了解不同频率如何影响各种物种,以及什么阈值被认为是有害的。这项研究对于制定减少噪音污染的策略至关重要。诸如更安静的船舶设计和降噪施工技术等新技术正在被探索,以应对这些挑战。总之,液体传播噪声(liquidborne noise)是一个经常被忽视的噪音污染方面,它对海洋生态系统和人类活动有着重要的影响。随着我们继续探索海洋并发展在其中运作的产业,考虑液体传播噪声对环境的影响至关重要。通过提高意识和实施有效的法规,我们可以为海洋生物和人类努力的可持续未来而努力。保护我们的海洋免受液体传播噪声不利影响应该是每一个重视我们星球健康的人的优先事项。
相关单词
