liquidborne noise

简明释义

液体流动噪声

英英释义

例句

1.To reduce liquidborne noise 液体传播噪声, we installed sound barriers around the water treatment facility.

为了减少液体传播噪声 liquidborne noise，我们在水处理设施周围安装了隔音墙。

2.The research focused on how liquidborne noise 液体传播噪声 affects fish communication.

研究重点是液体传播噪声 liquidborne noise如何影响鱼类沟通。

3.The engineers measured the liquidborne noise 液体传播噪声 during the underwater construction project to ensure compliance with environmental regulations.

工程师在水下施工项目中测量了液体传播噪声 liquidborne noise，以确保符合环境法规。

4.The liquidborne noise 液体传播噪声 from the nearby river can be heard clearly in our office.

我们办公室里可以清楚地听到来自附近河流的液体传播噪声 liquidborne noise。

5.In the laboratory, we studied the effects of liquidborne noise 液体传播噪声 on marine life.

在实验室中，我们研究了液体传播噪声 liquidborne noise对海洋生物的影响。

作文

Understanding the concept of liquidborne noise is crucial in various fields, particularly in environmental science and engineering. Liquidborne noise refers to sound that travels through liquid mediums, such as water. This type of noise can originate from various sources, including marine life, industrial activities, and natural phenomena like waves and currents. The study of liquidborne noise has gained importance due to its impact on aquatic ecosystems and human activities. In marine environments, liquidborne noise can significantly affect the behavior and communication of marine animals. For example, many species of fish and marine mammals rely on sound for navigation, hunting, and social interactions. When liquidborne noise levels increase due to human activities such as shipping, drilling, or construction, it can disrupt these natural behaviors, leading to potential declines in populations. Scientists have documented instances where increased liquidborne noise has caused stress in marine life, resulting in changes in migration patterns and feeding habits.Moreover, liquidborne noise can also interfere with the ability of animals to communicate. Many marine species use echolocation or vocalizations to find mates or locate food. Elevated noise levels can mask these important sounds, making it difficult for animals to hear each other. This phenomenon has been observed in species such as dolphins and whales, which are known for their complex vocalizations. As a result, understanding and mitigating liquidborne noise is essential for the conservation of these species and the health of marine ecosystems.In addition to biological implications, liquidborne noise has engineering considerations as well. For instance, in underwater construction projects, engineers must account for the noise generated by machinery and its potential effects on the surrounding environment. By using noise-reducing technologies and methods, they can minimize the impact of liquidborne noise on marine life. Furthermore, monitoring liquidborne noise levels is vital for assessing the health of aquatic environments and ensuring compliance with environmental regulations.As we continue to explore and utilize our oceans, the significance of studying liquidborne noise cannot be overstated. It plays a critical role in our understanding of marine ecosystems and helps us develop strategies to protect them. Awareness and education about liquidborne noise should be promoted among policymakers, industry leaders, and the general public to foster a greater appreciation for the delicate balance of aquatic life. In conclusion, liquidborne noise is a multifaceted issue that intersects with ecology, engineering, and conservation. As research advances, it is imperative that we take proactive measures to monitor and mitigate the effects of liquidborne noise on marine environments. By doing so, we can ensure a sustainable future for both human activities and the diverse life forms that inhabit our oceans.

理解液体传播噪声的概念在多个领域中至关重要，特别是在环境科学和工程学中。液体传播噪声是指通过液体介质（如水）传播的声音。这种噪声可以来自多种来源，包括海洋生物、工业活动以及自然现象，如波浪和水流。由于其对水生生态系统和人类活动的影响，液体传播噪声的研究变得越来越重要。在海洋环境中，液体传播噪声可能会显著影响海洋动物的行为和交流。例如，许多鱼类和海洋哺乳动物依赖声音进行导航、捕猎和社交互动。当由于人类活动（如航运、钻探或建筑）导致液体传播噪声水平增加时，可能会干扰这些自然行为，从而导致种群潜在的下降。科学家们已经记录到，由于液体传播噪声的增加，海洋生物出现了压力，导致迁徙模式和觅食习惯的变化。此外，液体传播噪声还会干扰动物的交流能力。许多海洋物种使用回声定位或发声来寻找配偶或定位食物。噪声水平的升高可能会掩盖这些重要声音，使动物难以相互听见。这种现象已在海豚和鲸鱼等以复杂叫声著称的物种中观察到。因此，理解和减轻液体传播噪声对于保护这些物种和海洋生态系统的健康至关重要。除了生物学影响外，液体传播噪声还有工程方面的考虑。例如，在水下建设项目中，工程师必须考虑机器产生的噪声及其对周围环境的潜在影响。通过使用降低噪声的技术和方法，他们可以最小化液体传播噪声对海洋生物的影响。此外，监测液体传播噪声水平对于评估水生环境的健康和确保遵守环境法规至关重要。随着我们继续探索和利用海洋，研究液体传播噪声的重要性不容低估。它在我们理解海洋生态系统方面发挥着关键作用，并帮助我们制定保护这些生态系统的策略。应在政策制定者、行业领导者和公众之间推广对液体传播噪声的意识和教育，以增强对水生生命微妙平衡的更大欣赏。总之，液体传播噪声是一个多方面的问题，涉及生态学、工程学和保护。随着研究的进展，我们必须采取积极措施监测和减轻液体传播噪声对海洋环境的影响。通过这样做，我们可以确保人类活动和居住在我们海洋中的多样生命形式的可持续未来。