lock weir network

简明释义

用水闸隔开的溢吝网

英英释义

例句

1.The lock weir network 闸坝网络 serves as a crucial element for managing river flow and preventing flooding.

该闸坝网络是管理河流流量和防止洪水的重要组成部分。

2.Engineers are studying the impact of the new lock weir network 闸坝网络 on local fish populations.

工程师们正在研究新的闸坝网络对当地鱼类种群的影响。

3.Tourists can take boat tours to explore the scenic areas created by the lock weir network 闸坝网络.

游客可以乘船游览由闸坝网络创造的风景区。

4.The maintenance of the lock weir network 闸坝网络 is essential for ensuring safe navigation.

维护闸坝网络对于确保安全航行至关重要。

5.The construction of the lock weir network 闸坝网络 improved the efficiency of water transport in the region.

该闸坝网络的建设提高了该地区水运的效率。

作文

The concept of a lock weir network is crucial in understanding how waterways are managed and maintained for navigation and irrigation purposes. A lock weir network consists of a series of locks and weirs that work together to control water levels and facilitate the movement of vessels through different elevations. This system is particularly important in regions with varying topography, where rivers may flow through hills or valleys, creating challenges for navigation. Locks are chambers that allow boats to be raised or lowered between stretches of water at different levels. When a boat approaches a lock, it enters the chamber, and the gates close behind it. Water is either added or drained from the chamber to raise or lower the vessel to the next section of the river. This process is essential for maintaining a navigable route, especially in areas where natural water levels fluctuate significantly. On the other hand, weirs are barriers built across rivers to regulate water flow. They can help maintain a consistent water level upstream and can also create a head of water that is necessary for hydropower generation or irrigation. In a lock weir network, weirs work in conjunction with locks to ensure that there is enough water available for navigation while also managing the ecological health of the river. The integration of locks and weirs into a cohesive lock weir network allows for efficient management of water resources. For example, during periods of heavy rainfall, weirs can help mitigate flooding by controlling excess water flow. Conversely, during dry spells, the network can maintain higher water levels to support irrigation needs and keep waterways navigable. In addition to their practical uses, lock weir networks also have significant environmental implications. They can affect fish migration patterns and the overall health of aquatic ecosystems. Therefore, modern engineering practices increasingly incorporate fish ladders and other ecological considerations into the design of these systems. This ensures that while we manage human needs for navigation and agriculture, we also protect the natural habitats that depend on these waterways. Furthermore, the development of a lock weir network can stimulate local economies by enhancing trade routes and providing recreational opportunities. Boating, fishing, and tourism can flourish in areas where waterways are well-managed, leading to increased economic activity and job creation. Communities often rely on these networks not only for transportation but also as sources of pride and cultural significance. In conclusion, understanding the functionality and importance of a lock weir network is essential for anyone interested in water management, environmental science, or regional planning. These systems are vital for maintaining navigability, supporting agriculture, and protecting ecosystems. As we move forward, it is crucial to balance human needs with environmental stewardship in the design and operation of lock weir networks. By doing so, we can ensure that our waterways remain valuable resources for generations to come.

“闸坝网络”的概念对于理解水道如何被管理和维护以便于航行和灌溉非常重要。“闸坝网络”由一系列闸门和坝组成，这些设施共同作用以控制水位并促进船只在不同高度之间的移动。这个系统在地形变化的地区尤其重要，在这些地方，河流可能穿过山丘或山谷，给航行带来挑战。闸门是允许船只在不同水位之间升降的舱室。当船只接近闸门时，它会进入舱室，后面的闸门关闭。水被添加或排出舱室，以将船只抬高或降低到河流的下一个部分。这个过程对于维护可航行路线至关重要，尤其是在自然水位波动显著的地区。另一方面，坝是建造在河流上的障碍物，用于调节水流。它们可以帮助维持上游的一致水位，同时也可以创造出水头，这对水电发电或灌溉是必要的。在“闸坝网络”中，坝与闸门协同工作，以确保有足够的水供航行使用，同时也管理河流的生态健康。将闸门和坝整合成一个协调的“闸坝网络”可以有效管理水资源。例如，在降雨量大的时期，坝可以通过控制多余水流来减轻洪水。相反，在干旱时期，网络可以维持较高的水位，以支持灌溉需求并保持水道的可航行性。除了它们的实用用途外，“闸坝网络”还具有重大的环境影响。它们可能影响鱼类迁徙模式和水生生态系统的整体健康。因此，现代工程实践越来越多地考虑鱼梯和其他生态因素，融入这些系统的设计中。这确保了我们在满足人类对航行和农业的需求的同时，也保护了依赖这些水道的自然栖息地。此外，“闸坝网络”的发展可以通过增强贸易路线和提供休闲机会来刺激地方经济。在水道管理良好的地区，划船、钓鱼和旅游业可以蓬勃发展，从而导致经济活动和就业创造的增加。社区往往不仅依赖这些网络进行运输，还将其视为自豪感和文化重要性的来源。总之，理解“闸坝网络”的功能和重要性对于任何对水资源管理、环境科学或区域规划感兴趣的人来说都是至关重要的。这些系统对于保持航行能力、支持农业和保护生态系统至关重要。随着我们向前发展，在设计和运营“闸坝网络”时平衡人类需求与环境保护至关重要。通过这样做，我们可以确保我们的水道在未来的世代中仍然是宝贵的资源。