counter reservoir

简明释义

反调节水库;

英英释义

例句

1.The counter reservoir plays a crucial role in balancing the water supply during dry seasons.

反向水库在干旱季节平衡水供应方面起着至关重要的作用。

2.In the event of a flood, the counter reservoir can help divert water away from populated areas.

在洪水发生时，反向水库可以帮助将水引导远离人口密集区。

3.The engineer designed a new system that includes a counter reservoir to manage excess water effectively.

工程师设计了一个新系统，包括一个反向水库来有效管理多余的水。

4.During maintenance, workers checked the levels in the counter reservoir to ensure it was functioning properly.

在维护期间，工人检查了反向水库中的水位，以确保其正常运行。

5.The city installed a counter reservoir to improve its stormwater management strategy.

该市安装了一个反向水库以改善其雨水管理策略。

作文

In the field of hydraulic engineering, the term counter reservoir refers to a water storage facility that is designed to balance the water levels in a primary reservoir. This concept is crucial for managing water resources effectively, especially in regions where water supply is inconsistent or subject to seasonal variations. A counter reservoir can be used to mitigate the effects of drought by storing excess water during wet periods and releasing it during dry spells. The importance of counter reservoirs cannot be overstated. They play a pivotal role in flood control, irrigation, and maintaining ecological balance in aquatic ecosystems. By strategically placing a counter reservoir downstream of a primary reservoir, engineers can ensure that water flow is regulated, thus preventing both flooding and water scarcity. This is particularly significant in agricultural areas where crops depend heavily on a stable water supply. Moreover, the construction of a counter reservoir involves careful planning and consideration of various environmental factors. Engineers must assess the geographical features of the land, the potential impact on local wildlife, and the needs of the communities that rely on these water sources. For instance, if a counter reservoir is built too close to residential areas, it could pose risks such as increased humidity or even flooding in case of overflow. Therefore, community engagement and environmental assessments are essential steps in the planning process. In addition to their practical applications, counter reservoirs also serve as vital components of hydroelectric power generation systems. By storing water at higher elevations, they create the potential for energy generation when the water is released to flow through turbines. This dual functionality enhances the efficiency of water resource management while contributing to renewable energy production. The integration of modern technology has further improved the effectiveness of counter reservoirs. With the advent of smart water management systems, real-time data can be collected and analyzed to optimize water distribution and usage. Sensors can monitor water levels, quality, and environmental conditions, allowing for quick responses to changing circumstances. This technological advancement not only increases the reliability of water supply but also helps in conserving water resources, which is increasingly important in the face of climate change. In conclusion, the concept of a counter reservoir is integral to sustainable water management practices. By balancing water levels, providing flood control, supporting agriculture, and enabling hydroelectric power generation, counter reservoirs are essential for both environmental sustainability and human development. As we continue to face challenges related to water scarcity and climate change, the role of counter reservoirs will only become more critical in ensuring that we have access to clean and reliable water supplies for generations to come.

在水利工程领域，术语反向水库指的是一种水储存设施，旨在平衡主水库中的水位。这个概念对于有效管理水资源至关重要，特别是在水供应不稳定或受到季节性变化影响的地区。反向水库可以用来缓解干旱的影响，通过在湿润时期储存多余的水，并在干燥时期释放它。反向水库的重要性不容小觑。它们在防洪、灌溉和维持水生生态系统的生态平衡方面发挥着关键作用。通过在主水库下游战略性地设置反向水库，工程师可以确保水流得到调节，从而防止洪水和水资源短缺。这在农业地区尤为重要，因为作物严重依赖稳定的水供应。此外，建设反向水库需要仔细规划和考虑各种环境因素。工程师必须评估土地的地理特征、对当地野生动物的潜在影响以及依赖这些水源的社区的需求。例如，如果反向水库建得离居民区太近，可能会带来风险，如湿度增加或在溢出情况下的洪水。因此，社区参与和环境评估是规划过程中的重要步骤。除了其实际应用外，反向水库还作为水电发电系统的重要组成部分。通过在较高的海拔储存水，它们为释放水流过涡轮机发电创造了潜力。这种双重功能提高了水资源管理的效率，同时促进了可再生能源的生产。现代技术的整合进一步提高了反向水库的有效性。随着智能水管理系统的出现，可以收集和分析实时数据，以优化水的分配和使用。传感器可以监测水位、水质和环境条件，使对变化情况能迅速做出反应。这一技术进步不仅提高了水供应的可靠性，还帮助节约水资源，这在面对气候变化时愈加重要。总之，反向水库的概念是可持续水管理实践中不可或缺的一部分。通过平衡水位、提供防洪、支持农业和促进水电发电，反向水库对于环境可持续性和人类发展都是至关重要的。随着我们继续面临与水资源短缺和气候变化相关的挑战，反向水库的角色将变得更加重要，以确保我们在未来几代人中都能获得清洁和可靠的水供应。