moored array

简明释义

锚系基阵

英英释义

例句

1.The research vessel deployed a moored array to collect data on ocean currents.

研究船部署了一个系泊阵列来收集海洋流的数据。

2.Scientists rely on the moored array for long-term monitoring of temperature changes in the ocean.

科学家依靠系泊阵列长期监测海洋温度变化。

3.The deployment of the moored array required careful planning and coordination.

部署系泊阵列需要仔细的计划和协调。

4.The moored array was strategically placed to gather information about marine life in the region.

该系泊阵列被战略性地放置，以收集该地区海洋生物的信息。

5.Data from the moored array has provided insights into seasonal weather patterns.

来自系泊阵列的数据为季节性天气模式提供了见解。

作文

In the realm of marine technology, the concept of a moored array plays a crucial role in various applications, particularly in oceanographic research and renewable energy generation. A moored array refers to a collection of instruments or devices that are anchored to the seabed and designed to remain stationary while collecting data or harnessing energy from the surrounding environment. This setup is essential for scientists and engineers who aim to understand the complexities of ocean dynamics and to develop sustainable energy solutions.One of the primary uses of a moored array is in the field of oceanography. Researchers deploy these arrays to monitor ocean currents, temperature, salinity, and other critical parameters over extended periods. By having multiple sensors arranged in a systematic manner, scientists can gather comprehensive data that contributes to our understanding of climate change, marine ecosystems, and weather patterns. The data collected from a moored array can help predict phenomena such as El Niño events and improve models that forecast severe weather conditions, thereby enhancing preparedness and response strategies.Moreover, moored arrays are increasingly being utilized in the development of renewable energy technologies, particularly in the harnessing of wave and tidal energy. These arrays can consist of buoys equipped with turbines or other energy conversion devices that capture the kinetic energy from waves and convert it into electricity. By strategically placing a moored array in areas with high wave activity, energy companies can generate significant amounts of power while minimizing environmental impact. This approach not only helps in reducing reliance on fossil fuels but also contributes to the transition towards cleaner energy sources.The design and deployment of a moored array require careful consideration of various factors, including oceanographic conditions, seabed characteristics, and the specific objectives of the study or energy project. Engineers must ensure that the mooring system is robust enough to withstand harsh marine environments, including strong currents and storms. Furthermore, the arrangement of instruments within the moored array must be optimized to maximize data collection efficiency and energy production.In addition to their scientific and energy-related applications, moored arrays also play a vital role in environmental monitoring. They can be equipped with sensors that detect pollutants, track marine life, and assess the health of coral reefs. This information is invaluable for conservation efforts, as it enables researchers and policymakers to make informed decisions regarding marine protection and resource management.As technology continues to advance, the capabilities of moored arrays are expected to expand. Innovations in sensor technology, data transmission, and energy conversion methods will enhance the effectiveness of these systems. For instance, the integration of autonomous underwater vehicles (AUVs) with moored arrays could allow for more dynamic data collection and analysis, providing real-time insights into ocean conditions.In conclusion, the moored array represents a pivotal advancement in marine science and renewable energy. Its ability to provide valuable data and generate clean energy makes it an essential tool for addressing some of the most pressing challenges facing our oceans and planet. As we continue to explore and utilize the vast resources of the sea, understanding and implementing effective moored arrays will be key to ensuring a sustainable future for both marine ecosystems and human societies.

在海洋技术领域，moored array的概念在各种应用中发挥着至关重要的作用，特别是在海洋研究和可再生能源生成方面。moored array指的是一组锚定在海床上的仪器或设备，旨在保持静止，同时收集数据或从周围环境中获取能量。这种设置对科学家和工程师来说至关重要，他们旨在理解海洋动态的复杂性并开发可持续的能源解决方案。moored array的主要用途之一是在海洋学领域。研究人员部署这些阵列以监测海洋流、温度、盐度和其他关键参数，时间长达数月甚至数年。通过将多个传感器系统化地排列，科学家可以收集全面的数据，这有助于我们理解气候变化、海洋生态系统和天气模式。从moored array收集的数据可以帮助预测如厄尔尼诺现象等现象，并改善预测严重天气条件的模型，从而增强准备和应对策略。此外，moored arrays在可再生能源技术的发展中也越来越多地被利用，特别是在波浪和潮汐能的捕获方面。这些阵列可以由配备涡轮机或其他能量转换设备的浮标组成，这些设备捕获波浪的动能并将其转化为电力。通过在高波浪活动区域战略性地放置moored array，能源公司可以生成大量电力，同时最小化对环境的影响。这种方法不仅有助于减少对化石燃料的依赖，还促进了向更清洁能源源的过渡。moored array的设计和部署需要仔细考虑各种因素，包括海洋条件、海床特征以及研究或能源项目的具体目标。工程师必须确保锚固系统足够坚固，以承受恶劣的海洋环境，包括强烈的水流和风暴。此外，moored array内仪器的排列必须经过优化，以最大限度地提高数据收集效率和能量生产。除了科学和能源相关应用外，moored arrays在环境监测中也发挥着重要作用。它们可以配备检测污染物、追踪海洋生物和评估珊瑚礁健康的传感器。这些信息对于保护工作至关重要，因为它使研究人员和政策制定者能够就海洋保护和资源管理做出明智的决定。随着技术的不断进步，moored arrays的能力预计将扩展。传感器技术、数据传输和能量转换方法的创新将增强这些系统的有效性。例如，将自主水下航行器（AUV）与moored arrays集成，可以实现更动态的数据收集和分析，从而实时洞察海洋条件。总之，moored array代表了海洋科学和可再生能源的重要进展。它提供有价值的数据和生成清洁能源的能力，使其成为应对我们海洋和地球面临的一些最紧迫挑战的重要工具。随着我们继续探索和利用海洋的广阔资源，理解和实施有效的moored arrays将是确保海洋生态系统和人类社会可持续未来的关键。