semitaut moored buoy

简明释义

悬链锚定浮标

英英释义

例句

1.Using a semitaut moored buoy allows for more stable data collection in rough seas.

使用半紧系浮标可以在恶劣海况下更稳定地收集数据。

2.The research vessel deployed a semitaut moored buoy to monitor oceanographic conditions.

研究船部署了一个半紧系浮标来监测海洋条件。

3.Researchers found that the semitaut moored buoy provided excellent stability during storms.

研究人员发现，半紧系浮标在风暴期间提供了极好的稳定性。

4.The deployment of a semitaut moored buoy is crucial for long-term ocean monitoring.

部署半紧系浮标对长期海洋监测至关重要。

5.The semitaut moored buoy is equipped with sensors to measure temperature and salinity.

该半紧系浮标配备了用于测量温度和盐度的传感器。

作文

In the vast expanse of the ocean, various technologies are employed to monitor and study marine environments. One such technology is the semitaut moored buoy, which plays a crucial role in oceanographic research. These buoys are designed to remain stable in the water while being able to move with the waves, providing essential data about water conditions, weather patterns, and even marine life. Unlike traditional moored buoys, which can be rigidly fixed to the seabed, semitaut moored buoys utilize a unique anchoring system that allows them to float at a certain depth while still being tethered to the ocean floor. This design minimizes the impact of surface waves, making them ideal for collecting accurate data in rough sea conditions.The construction of a semitaut moored buoy typically involves a floating platform equipped with various sensors and instruments. These devices can measure temperature, salinity, currents, and other vital parameters. The buoy's ability to maintain its position while allowing for some vertical movement means that researchers can gather continuous data over extended periods. This is particularly important for understanding long-term trends in oceanographic conditions, which can be influenced by climate change and human activities.Furthermore, semitaut moored buoys are often equipped with communication systems that transmit data in real-time to researchers on land. This capability allows scientists to monitor ocean conditions remotely and respond quickly to any significant changes. For instance, if a buoy detects an unusual rise in water temperature, researchers can investigate potential causes, such as an underwater volcanic eruption or a harmful algal bloom. In addition to their scientific applications, semitaut moored buoys can also serve practical purposes in maritime navigation and safety. They can mark hazardous areas, provide information on current weather conditions, and assist in search and rescue operations. Their versatility makes them invaluable tools in both research and operational contexts.As we continue to explore the mysteries of the ocean, technologies like the semitaut moored buoy will be essential in our efforts to understand and protect marine ecosystems. By providing reliable data on ocean conditions, these buoys help inform conservation strategies and policy decisions that affect our oceans. The ongoing development of more advanced buoy technology promises to enhance our ability to monitor and respond to changes in the marine environment, ultimately contributing to the sustainability of our planet's precious resources.In conclusion, the semitaut moored buoy represents a remarkable innovation in oceanographic research. Its design allows for stability and flexibility, enabling scientists to collect critical data that informs our understanding of the world's oceans. As we face increasing environmental challenges, the importance of such technologies cannot be overstated. Through continued investment in ocean monitoring technologies, we can better protect our oceans for future generations.

在广阔的海洋中，各种技术被用来监测和研究海洋环境。其中一种技术是半拉紧系泊浮标，它在海洋学研究中发挥着至关重要的作用。这些浮标被设计成在水中保持稳定，同时能够随波漂动，提供关于水文条件、天气模式甚至海洋生物的重要数据。与传统的系泊浮标不同，传统浮标可以固定在海底，半拉紧系泊浮标则采用一种独特的锚定系统，使其能够浮在一定深度，同时仍然被系在海底。这种设计最大限度地减少了表面波浪的影响，使其成为在恶劣海况下收集准确数据的理想选择。半拉紧系泊浮标的构造通常包括一个浮动平台，配备各种传感器和仪器。这些设备可以测量温度、盐度、海流和其他重要参数。浮标能够保持其位置，同时允许一些垂直移动，这意味着研究人员可以在较长时间内收集连续数据。这对于理解海洋学条件的长期趋势尤其重要，这些趋势可能受到气候变化和人类活动的影响。此外，半拉紧系泊浮标通常配备通信系统，可以实时将数据传输到岸上的研究人员。这种能力使科学家能够远程监测海洋条件，并迅速对任何重大变化做出反应。例如，如果浮标检测到水温异常上升，研究人员可以调查潜在原因，如水下火山喷发或有害藻华。除了科学应用，半拉紧系泊浮标还可以在海事导航和安全中发挥实用作用。它们可以标记危险区域，提供当前天气条件的信息，并协助搜救行动。它们的多功能性使其在研究和操作环境中都是不可或缺的工具。随着我们继续探索海洋的奥秘，像半拉紧系泊浮标这样的技术将在我们理解和保护海洋生态系统的努力中发挥重要作用。通过提供可靠的海洋条件数据，这些浮标有助于制定影响我们海洋的保护策略和政策决策。更先进的浮标技术的持续发展有望增强我们监测和应对海洋环境变化的能力，最终为我们星球珍贵资源的可持续性做出贡献。总之，半拉紧系泊浮标代表了海洋学研究中的一项显著创新。它的设计允许稳定性和灵活性，使科学家能够收集关键数据，从而加深我们对世界海洋的理解。面对日益严峻的环境挑战，这种技术的重要性不容小觑。通过对海洋监测技术的持续投资，我们可以更好地保护我们的海洋，以造福未来世代。