dragging buoy

简明释义

疏浚区浮标

英英释义

例句

1.The team used a dragging buoy to measure temperature variations in the water.

团队使用一个拖曳浮标来测量水中的温度变化。

2.We noticed that the dragging buoy was not functioning properly during our last expedition.

我们注意到在上一次探险中，拖曳浮标没有正常工作。

3.During the storm, the dragging buoy helped track the movement of the waves.

在风暴期间，拖曳浮标帮助追踪波浪的运动。

4.The research vessel deployed a dragging buoy to collect data on ocean currents.

研究船部署了一个拖曳浮标来收集海洋流的数据。

5.The dragging buoy provided crucial information for our oceanographic studies.

这个拖曳浮标为我们的海洋学研究提供了重要信息。

作文

In the vast expanse of the ocean, various tools and technologies are employed to study marine environments. One such tool is the dragging buoy, which plays a crucial role in oceanographic research. A dragging buoy is a floating device that is towed behind a ship to collect data about water conditions, currents, and temperatures at different depths. This method allows scientists to gather valuable information without having to deploy complex underwater instruments. The design of a dragging buoy is quite innovative. It typically consists of a buoyant body that floats on the surface while being connected to a series of sensors and instruments. As the buoy is dragged through the water, it measures various parameters, such as salinity, temperature, and pressure. The data collected can help researchers understand ocean circulation patterns, which are vital for predicting weather and climate changes. One of the significant advantages of using a dragging buoy is its ability to cover large areas of the ocean efficiently. Traditional methods of collecting oceanographic data often require extensive time and resources, but with a dragging buoy, researchers can quickly gather information over vast distances. This efficiency is particularly important when studying phenomena like El Niño or La Niña, where understanding changes in ocean conditions can lead to better predictions of their impacts on global weather patterns.Moreover, the use of a dragging buoy enhances the safety of oceanographic research. By towing the buoy from a distance, researchers can avoid the dangers associated with deploying instruments directly into potentially hazardous waters. This method not only ensures the safety of the crew but also protects the equipment from damage caused by rough sea conditions. However, there are challenges associated with the use of a dragging buoy. The accuracy of the data collected can be influenced by various factors, such as the speed of the towing vessel and the sea state. If the ship moves too quickly, the buoy may not accurately reflect the water conditions, leading to potential errors in the data. Therefore, careful planning and execution are required to ensure that the dragging buoy operates effectively and provides reliable information.In conclusion, the dragging buoy is an indispensable tool in marine research. Its ability to collect data efficiently and safely makes it a preferred choice for oceanographers studying the complexities of our oceans. As technology continues to advance, we can expect improvements in the design and functionality of dragging buoys, leading to even more precise and comprehensive oceanographic data collection. The insights gained from this research will undoubtedly contribute to our understanding of the ocean's role in the Earth's climate system and help us address the challenges posed by climate change. In summary, a dragging buoy (拖曳浮标) is a valuable instrument in oceanographic studies, enabling researchers to gather critical data about marine environments while ensuring safety and efficiency in their operations.

在广阔的海洋中，各种工具和技术被用来研究海洋环境。其中一种工具是拖曳浮标，它在海洋学研究中发挥着关键作用。拖曳浮标是一种漂浮装置，通常在船后拖曳，以收集关于水文条件、海流和不同深度温度的数据。这种方法使科学家能够收集有价值的信息，而不必部署复杂的水下仪器。拖曳浮标的设计相当创新。它通常由一个浮在水面上的浮体组成，同时连接一系列传感器和仪器。当浮标被拖曳通过水面时，它会测量各种参数，如盐度、温度和压力。收集的数据可以帮助研究人员理解海洋环流模式，这对预测天气和气候变化至关重要。使用拖曳浮标的一个显著优势是其高效覆盖广阔海域的能力。传统的海洋数据收集方法往往需要大量时间和资源，但通过使用拖曳浮标，研究人员可以迅速在广泛的距离内收集信息。这种效率在研究厄尔尼诺或拉尼娜等现象时尤为重要，因为了解海洋条件的变化可以更好地预测其对全球天气模式的影响。此外，使用拖曳浮标还增强了海洋研究的安全性。通过远距离拖曳浮标，研究人员可以避免直接将仪器部署到潜在危险水域所带来的危险。这种方法不仅确保了船员的安全，还保护了设备免受恶劣海况造成的损坏。然而，使用拖曳浮标也存在一些挑战。收集数据的准确性可能受到多种因素的影响，例如拖曳船的速度和海况。如果船速过快，浮标可能无法准确反映水文条件，从而导致数据的潜在误差。因此，需要仔细规划和执行，以确保拖曳浮标有效操作并提供可靠的信息。总之，拖曳浮标是海洋研究中不可或缺的工具。它高效、安全地收集数据，使其成为研究复杂海洋的海洋学家的首选。随着技术的不断进步，我们可以期待拖曳浮标的设计和功能得到改进，从而实现更精确和全面的海洋数据收集。从这项研究获得的见解无疑将有助于我们理解海洋在地球气候系统中的作用，并帮助我们应对气候变化带来的挑战。总之，拖曳浮标（dragging buoy）是海洋学研究中的一种宝贵工具，使研究人员能够收集关于海洋环境的重要数据，同时确保其操作的安全性和效率。