tidal current limit

简明释义

潮流界(进河口的上涨潮水速度与河流速度相抵

英英释义

例句

1.Researchers studied the effects of the tidal current limit on local ecosystems.

研究人员研究了潮流极限对当地生态系统的影响。

2.Understanding the tidal current limit is crucial for marine navigation.

理解潮流极限对海洋导航至关重要。

3.The fishing boats were advised to stay clear of areas where the tidal current limit was exceeded.

渔船被建议远离超出潮流极限的区域。

4.The tidal current limit can change with the phases of the moon.

随着月相的变化，潮流极限可能会发生变化。

5.The engineers calculated the tidal current limit to ensure the safety of the bridge design.

工程师计算了潮流极限以确保桥梁设计的安全性。

作文

The study of marine environments often leads us to explore various phenomena, one of which is the concept of the tidal current limit. This term refers to the maximum velocity of water movement in tidal areas, where the gravitational pull of the moon and sun creates a rhythmic rise and fall of sea levels. Understanding the tidal current limit is crucial for several reasons, particularly in navigation, marine ecology, and renewable energy generation.In navigation, knowing the tidal current limit can significantly enhance the safety and efficiency of maritime travel. Tidal currents can be incredibly strong, especially in narrow straits or estuaries, where they can reach speeds that challenge even the most powerful vessels. For instance, when navigating through the Bay of Fundy, known for having some of the highest tides in the world, sailors must be acutely aware of the tidal current limit to avoid being caught in dangerous conditions. Proper planning around these limits allows for safer passage and can save both time and resources.Marine ecology is another field that benefits from understanding the tidal current limit. Tidal currents play a vital role in nutrient distribution and the overall health of marine ecosystems. Many organisms, such as fish and invertebrates, rely on these currents for their life cycles, including spawning and feeding. By studying the tidal current limit, researchers can better understand how changes in tidal patterns—due to climate change or human intervention—might impact these species. This knowledge is essential for conservation efforts and for maintaining biodiversity in coastal regions.Additionally, the tidal current limit has significant implications for renewable energy. As the world shifts towards sustainable energy sources, harnessing tidal energy has become increasingly attractive. Tidal turbines, similar to wind turbines but designed for underwater use, can generate electricity from the kinetic energy of moving water. However, the efficiency of these systems is directly linked to the tidal current limit. If the current exceeds the turbine's capacity, it can lead to mechanical failure or reduced energy output. Therefore, understanding and predicting these limits is vital for the successful implementation of tidal energy projects.Furthermore, the tidal current limit can also inform coastal development and infrastructure planning. Communities located near coastlines must consider the potential impact of tidal currents on their structures. Buildings, bridges, and other infrastructure need to be designed to withstand the forces generated by these currents, particularly during extreme weather events. By incorporating the tidal current limit into engineering assessments, planners can create safer, more resilient communities.In conclusion, the tidal current limit is a critical concept that intersects various fields, from navigation and marine ecology to renewable energy and urban planning. As we continue to explore the complexities of our oceans, understanding these limits will be essential for promoting safety, sustainability, and ecological health. The ongoing research and technological advancements in this area will undoubtedly yield further insights, helping us to better manage our marine resources and protect the delicate balance of ocean ecosystems.

对海洋环境的研究通常会引导我们探索各种现象，其中之一就是“潮流极限”的概念。这个术语指的是潮汐区域水流运动的最大速度，在这些地方，月球和太阳的引力造成了海平面有节奏的升降。了解潮流极限对于多个方面至关重要，特别是在航行、海洋生态和可再生能源发电方面。在航行方面，了解潮流极限可以显著提升海上旅行的安全性和效率。潮流可能非常强劲，尤其是在狭窄的海峡或河口，潮流的速度甚至可以挑战最强大的船只。例如，在以世界上最高潮汐著称的芬迪湾航行时，船员必须清楚地意识到潮流极限，以避免陷入危险的条件。围绕这些极限进行适当的规划可以确保更安全的通行，并节省时间和资源。海洋生态学是另一个受益于理解潮流极限的领域。潮流在营养分布和海洋生态系统的整体健康中发挥着至关重要的作用。许多生物，如鱼类和无脊椎动物，依赖这些潮流进行生命周期，包括产卵和觅食。通过研究潮流极限，研究人员可以更好地理解由于气候变化或人类干预而导致的潮汐模式变化可能如何影响这些物种。这一知识对于保护工作和维持沿海地区的生物多样性至关重要。此外，潮流极限对可再生能源也具有重要意义。随着世界向可持续能源来源的转变，利用潮汐能变得越来越有吸引力。潮汐涡轮机类似于风力涡轮机，但设计用于水下，可以从流动水的动能中发电。然而，这些系统的效率与潮流极限直接相关。如果潮流超过涡轮机的能力，可能会导致机械故障或减少能量输出。因此，理解和预测这些极限对于成功实施潮汐能源项目至关重要。此外，潮流极限还可以为沿海开发和基础设施规划提供信息。位于海岸线附近的社区必须考虑潮流对其结构的潜在影响。建筑物、桥梁和其他基础设施需要设计成能够承受这些潮流产生的力量，特别是在极端天气事件期间。通过将潮流极限纳入工程评估，规划者可以创建更安全、更具韧性的社区。总之，潮流极限是一个关键概念，涉及多个领域，从航行和海洋生态到可再生能源和城市规划。随着我们继续探索海洋的复杂性，理解这些极限对于促进安全、可持续和生态健康至关重要。在这一领域的持续研究和技术进步无疑会带来进一步的洞察，帮助我们更好地管理海洋资源并保护海洋生态系统的微妙平衡。