lower reservoir

简明释义

下游水库

英英释义

例句

1.During the dry season, the lower reservoir (下游水库) is crucial for maintaining the water supply.

在干旱季节，下游水库（下游水库）对于维持水供应至关重要。

2.The engineers monitored the levels in the lower reservoir (下游水库) to ensure safe operations.

工程师们监测了下游水库（下游水库）的水位，以确保安全操作。

3.The lower reservoir (下游水库) serves as a buffer during heavy rainfall.

下游水库（下游水库）在暴雨期间充当缓冲区。

4.Sediment buildup in the lower reservoir (下游水库) can affect water quality.

沉积物在下游水库（下游水库）的积累可能会影响水质。

5.The water from the upper dam flows down to the lower reservoir (下游水库) to generate electricity.

上游大坝的水流向下游水库（下游水库）以发电。

作文

In the world of hydropower, the concept of a lower reservoir plays a crucial role in the generation of electricity. A lower reservoir (下游水库) is essentially a body of water that is situated at a lower elevation compared to another reservoir or water source. This setup is significant because it allows for the gravitational flow of water, which is harnessed to produce energy. Hydropower plants often utilize a system of reservoirs to manage water flow efficiently. The lower reservoir acts as a storage area where water can be collected after it has been used to generate electricity in the upper reservoir. The operation of a hydropower facility typically involves two main reservoirs: the upper reservoir and the lower reservoir. When water is released from the upper reservoir, it flows down through turbines located at the power station. As the water moves downward, it spins the turbines, converting kinetic energy into mechanical energy, which is then transformed into electrical energy. Once the water has passed through the turbines, it enters the lower reservoir, where it can be stored until it is needed again. The efficiency of this system relies heavily on the design and management of both the upper and lower reservoirs. Engineers must carefully consider factors such as water levels, flow rates, and environmental impacts when designing these structures. For example, during periods of high electricity demand, operators may release more water from the upper reservoir to meet the needs of consumers. Conversely, during times of low demand, they can retain more water in the lower reservoir to conserve resources. Additionally, the lower reservoir can serve other purposes beyond energy generation. It can provide recreational opportunities such as fishing, boating, and swimming. Furthermore, it can play a role in flood control by regulating water flow and preventing overflow during heavy rainfall. This multifunctionality makes the lower reservoir an essential component of modern water management systems. In conclusion, the lower reservoir is a vital element in the hydropower generation process, facilitating the efficient use of water resources while also providing additional benefits to local communities. Understanding its importance helps us appreciate the complexities of renewable energy systems and the need for sustainable practices in our approach to energy production. As we continue to seek cleaner energy solutions, the role of the lower reservoir will undoubtedly remain significant in our efforts to harness the power of water for a sustainable future.

在水电的世界里，下游水库（lower reservoir）这一概念在发电中扮演着至关重要的角色。下游水库是指位于另一个水库或水源相对较低海拔的水体。这一设置非常重要，因为它允许水的重力流动，从而被利用来产生能量。水电站通常利用一系列水库来有效管理水流。下游水库作为一个储存区域，可以在水被用于上游水库发电后收集水。 水电设施的运行通常涉及两个主要水库：上游水库和下游水库。当水从上游水库释放时，它会流过位于发电站的涡轮机。随着水向下移动，它旋转涡轮机，将动能转化为机械能，然后再转化为电能。一旦水通过涡轮机，就进入下游水库，在那里可以储存，直到再次需要。 该系统的效率在很大程度上依赖于上游和下游水库的设计和管理。工程师在设计这些结构时必须仔细考虑水位、流速和环境影响等因素。例如，在电力需求高峰期，操作员可能会从上游水库释放更多水以满足消费者的需求。相反，在需求低迷时期，他们可以在下游水库中保留更多水，以节约资源。 此外，下游水库除了发电外，还可以提供其他用途。它可以提供诸如钓鱼、划船和游泳等休闲机会。此外，它还可以在暴雨期间通过调节水流来发挥防洪作用，防止溢出。这种多功能性使得下游水库成为现代水管理系统的重要组成部分。 总之，下游水库是水电发电过程中至关重要的元素，促进了水资源的有效利用，同时也为当地社区提供了额外的好处。理解其重要性有助于我们欣赏可再生能源系统的复杂性，以及在能源生产中可持续实践的必要性。随着我们继续寻找更清洁的能源解决方案，下游水库的作用无疑将在我们利用水的力量以实现可持续未来的努力中保持重要性。