wave gauge

简明释义

测波仪

英英释义

例句

1.Engineers rely on wave gauges to design better coastal defenses.

工程师依靠波浪计来设计更好的海岸防御措施。

2.The data from the wave gauge indicated that the waves were significantly higher than average this season.

来自波浪计的数据表明，本季的波浪明显高于平均水平。

3.A wave gauge is essential for monitoring changes in sea level.

一个波浪计对于监测海平面变化至关重要。

4.The coastal research team installed a wave gauge to measure the height of the waves during the storm.

沿海研究小组安装了一个波浪计以测量风暴期间的波浪高度。

5.Using a wave gauge helps scientists understand wave patterns and their impact on coastal erosion.

使用波浪计帮助科学家理解波浪模式及其对海岸侵蚀的影响。

作文

In the field of oceanography, understanding wave dynamics is crucial for various applications, including navigation, coastal engineering, and environmental monitoring. One of the key instruments used to measure wave characteristics is the wave gauge. A wave gauge (波浪计) is a device that records the height, period, and frequency of waves in a body of water. These measurements are vital for researchers and engineers who need to analyze wave patterns and their impacts on coastal regions. The operation of a wave gauge can vary depending on its design, but the most common types include pressure sensors and buoy-based systems. Pressure sensors are typically placed on the seabed and measure the changes in water pressure caused by passing waves. This data is then converted into wave heights, allowing researchers to understand the energy and behavior of the waves. On the other hand, buoy-based wave gauges float on the surface and use accelerometers to detect wave motion. Both types of wave gauges provide essential information that contributes to our understanding of marine environments.One significant application of wave gauges is in coastal engineering. Engineers use the data collected from these instruments to design structures such as breakwaters, docks, and seawalls. By understanding the wave conditions in a specific area, they can create designs that withstand extreme weather events and protect coastal communities from erosion and flooding. Furthermore, wave gauges help in predicting the impact of climate change on sea levels and wave patterns, enabling better preparedness for future challenges.In addition to engineering applications, wave gauges play a vital role in environmental monitoring. Scientists use the data to study the effects of waves on marine ecosystems, including coral reefs and coastal habitats. For instance, strong wave action can lead to increased sedimentation, which may smother sensitive species. By utilizing wave gauges, researchers can track changes over time and assess the health of these ecosystems.Moreover, wave gauges contribute to safety in maritime navigation. Accurate wave data is essential for ships and boats to ensure safe passage, especially during storms or adverse weather conditions. By integrating wave gauge data with other meteorological information, authorities can issue timely warnings to vessels, helping to prevent accidents at sea.In conclusion, the importance of wave gauges in understanding ocean dynamics cannot be overstated. These devices provide critical data that supports a wide range of applications, from engineering and environmental monitoring to navigation safety. As technology advances, we can expect even more sophisticated wave gauges to emerge, further enhancing our ability to monitor and respond to changing ocean conditions. The ongoing research and development in this field will undoubtedly lead to improved strategies for managing our precious marine resources and protecting coastal communities from the impacts of waves and climate change.

在海洋学领域，理解波浪动力学对于导航、沿海工程和环境监测等各种应用至关重要。用于测量波浪特性的关键仪器之一是wave gauge（波浪计）。wave gauge是一种记录水体中波浪高度、周期和频率的设备。这些测量对于需要分析波浪模式及其对沿海地区影响的研究人员和工程师来说是至关重要的。wave gauge的操作可能因其设计而异，但最常见的类型包括压力传感器和浮标系统。压力传感器通常放置在海底，测量经过波浪引起的水压变化。这些数据随后被转换为波高，使研究人员能够理解波浪的能量和行为。另一方面，浮标式wave gauge漂浮在水面上，使用加速度计来检测波浪运动。这两种类型的wave gauges提供了对我们理解海洋环境至关重要的信息。wave gauges的一个重要应用是在沿海工程中。工程师利用这些仪器收集的数据来设计诸如防波堤、码头和海堤等结构。通过了解特定区域的波浪条件，他们可以创建能够承受极端天气事件并保护沿海社区免受侵蚀和洪水影响的设计。此外，wave gauges有助于预测气候变化对海平面和波浪模式的影响，从而使未来的挑战能够更好地做好准备。除了工程应用，wave gauges在环境监测中也发挥着至关重要的作用。科学家利用这些数据研究波浪对海洋生态系统的影响，包括珊瑚礁和沿海栖息地。例如，强烈的波浪作用可能导致沉积物增加，这可能会掩埋敏感物种。通过利用wave gauges，研究人员可以跟踪随时间的变化，并评估这些生态系统的健康状况。此外，wave gauges还为海事导航的安全做出贡献。准确的波浪数据对船舶和小艇确保安全通行至关重要，尤其是在风暴或恶劣天气条件下。通过将wave gauge数据与其他气象信息结合，相关部门可以及时向船只发出警报，帮助防止海上事故。总之，wave gauges在理解海洋动力学方面的重要性不容小觑。这些设备提供的关键数据支持了从工程和环境监测到导航安全的广泛应用。随着技术的进步，我们可以期待出现更先进的wave gauges，进一步增强我们监测和应对变化的海洋条件的能力。该领域正在进行的研究和开发无疑将导致改进管理我们珍贵海洋资源和保护沿海社区免受波浪和气候变化影响的策略。