taut wire buoy array

简明释义

紧缆浮标阵紧缆浮标阵列

英英释义

例句

1.The taut wire buoy array was essential for tracking the movement of pollutants in the water.

这套张紧线浮标阵列对追踪水中污染物的运动至关重要。

2.Using a taut wire buoy array can significantly improve data accuracy in marine studies.

使用张紧线浮标阵列可以显著提高海洋研究中的数据准确性。

3.Engineers designed a new taut wire buoy array to withstand harsh weather conditions.

工程师设计了一套新的张紧线浮标阵列以抵御恶劣天气条件。

4.The taut wire buoy array provides real-time data for navigation safety.

这套张紧线浮标阵列为航行安全提供实时数据。

5.The research team deployed a taut wire buoy array to monitor ocean currents.

研究团队部署了一套张紧线浮标阵列以监测海洋潮流。

作文

In the realm of marine engineering, various technologies are employed to monitor and study the ocean's behavior and its impact on the environment. One such technology is the use of a taut wire buoy array, which plays a crucial role in collecting data related to ocean currents, wave patterns, and other vital parameters. Understanding how this system works can provide insights into its significance and applications in marine research.A taut wire buoy array consists of multiple buoys that are connected by taut wires, creating a grid-like structure on the surface of the water. These buoys are typically anchored to the seabed, allowing them to remain stable while still being able to float on the water's surface. The taut wires ensure that the buoys maintain their positions relative to one another, providing a consistent framework for data collection. This stability is essential for accurate measurements, as any movement could lead to erroneous data.The primary function of a taut wire buoy array is to measure various oceanographic parameters. For instance, these arrays can be equipped with sensors that monitor temperature, salinity, and pressure at different depths. By analyzing this data, researchers can gain a better understanding of ocean dynamics and how they affect climate change, marine ecosystems, and weather patterns. Additionally, the information gathered can be instrumental in navigation safety and predicting natural disasters such as tsunamis or hurricanes.One of the significant advantages of using a taut wire buoy array is its ability to cover large areas of the ocean without the need for extensive infrastructure. Unlike traditional monitoring methods, which may require ships or stationary platforms, these buoy arrays can be deployed quickly and efficiently. This flexibility allows scientists to study remote regions of the ocean that would otherwise be challenging to access.Moreover, the data collected from a taut wire buoy array can be transmitted in real-time to research institutions and government agencies. This immediate access to information enables timely responses to environmental changes and enhances our understanding of the ocean's role in global systems. For example, during extreme weather events, the data can help forecast storm surges and inform evacuation plans, potentially saving lives.However, the deployment of a taut wire buoy array is not without challenges. Environmental factors such as strong currents, storms, and marine life can affect the integrity of the buoys and the accuracy of the data collected. Researchers must consider these variables when designing and implementing these systems, often requiring innovative solutions to mitigate potential issues.In conclusion, the taut wire buoy array represents a significant advancement in oceanographic research tools. By providing a reliable and efficient means of collecting data, it contributes to our understanding of the complex interactions within marine environments. As we continue to face the challenges posed by climate change and environmental degradation, technologies like the taut wire buoy array will be vital in informing our responses and strategies. Embracing such innovations will enhance our ability to protect our oceans and ensure a sustainable future for generations to come.

在海洋工程领域，各种技术被用来监测和研究海洋的行为及其对环境的影响。其中一种技术就是使用紧绷线浮标阵列，它在收集与海洋洋流、波浪模式和其他重要参数相关的数据中发挥着关键作用。理解这个系统是如何工作的，可以提供对其重要性和在海洋研究中应用的深入见解。一个紧绷线浮标阵列由多个通过紧绷线连接的浮标组成，形成一个类似网格的结构，漂浮在水面上。这些浮标通常锚定在海床上，使其保持稳定，同时能够在水面上漂浮。紧绷的电线确保浮标之间保持相对位置，为数据收集提供一致的框架。这种稳定性对准确测量至关重要，因为任何移动都可能导致错误的数据。紧绷线浮标阵列的主要功能是测量各种海洋参数。例如，这些阵列可以配备传感器，监测不同深度的温度、盐度和压力。通过分析这些数据，研究人员可以更好地理解海洋动力学及其对气候变化、海洋生态系统和天气模式的影响。此外，收集到的信息对于航行安全和预测自然灾害（如海啸或飓风）也具有重要意义。使用紧绷线浮标阵列的一个显著优势是它能够覆盖大面积的海洋，而无需大量基础设施。与传统的监测方法（可能需要船只或固定平台）不同，这些浮标阵列可以快速高效地部署。这种灵活性使科学家能够研究那些难以接触的偏远海域。此外，从紧绷线浮标阵列收集的数据可以实时传输到研究机构和政府部门。这种即时获取信息的能力使我们能够及时应对环境变化，并增强我们对海洋在全球系统中作用的理解。例如，在极端天气事件期间，这些数据可以帮助预测风暴潮并通知撤离计划，潜在地挽救生命。然而，部署紧绷线浮标阵列并非没有挑战。强流、风暴和海洋生物等环境因素可能影响浮标的完整性和收集数据的准确性。研究人员必须在设计和实施这些系统时考虑这些变量，通常需要创新的解决方案来减轻潜在问题。总之，紧绷线浮标阵列代表了海洋研究工具的重大进步。通过提供可靠和高效的数据收集手段，它有助于我们理解海洋环境中复杂的相互作用。随着我们继续面临气候变化和环境退化带来的挑战，像紧绷线浮标阵列这样的技术将在告知我们的应对和策略方面发挥重要作用。拥抱这样的创新将增强我们保护海洋的能力，并确保为后代创造可持续的未来。