dam intake

简明释义

水坝取水口

英英释义

例句

1.During the drought, the dam intake was critical for managing water levels.

在干旱期间，水坝进水口对管理水位至关重要。

2.The dam intake is designed to control the flow of water into the hydroelectric plant.

水坝进水口旨在控制水流进入水电厂。

3.They installed a new filter at the dam intake to prevent debris from entering the reservoir.

他们在水坝进水口安装了一个新过滤器，以防止杂物进入水库。

4.The engineers inspected the dam intake for any signs of wear and tear.

工程师检查了水坝进水口是否有磨损和撕裂的迹象。

5.Regular maintenance of the dam intake ensures optimal performance during peak usage.

定期维护水坝进水口可确保在高峰使用期间的最佳性能。

作文

The concept of a dam intake is crucial in the management of water resources and the operation of hydroelectric power plants. A dam intake refers to the structure through which water is drawn from a reservoir or river into a dam for storage or generation of electricity. Understanding how a dam intake functions can provide insights into its importance in both environmental and energy contexts.Firstly, the design of a dam intake plays a significant role in ensuring the efficiency of water flow. It is typically located at a strategic point on the dam where water levels are optimal for intake. Engineers must consider various factors such as water depth, sediment load, and potential debris when designing a dam intake. These considerations help prevent blockages that could hinder water flow and reduce the overall efficiency of the dam.Moreover, a well-designed dam intake can also help in managing water quality. By controlling the depth at which water is drawn from the reservoir, operators can minimize the intake of surface contaminants, thereby improving the quality of water used for hydroelectric power generation. This aspect is particularly important in regions where water quality is a concern, as it directly impacts both the ecosystem and the communities relying on this resource.In addition to its functional benefits, a dam intake also has implications for environmental sustainability. Many modern dams integrate fish ladders or bypass systems at their dam intakes to allow aquatic life to migrate freely. This is vital for maintaining biodiversity and supporting fish populations that may be affected by the dam's presence. Such measures demonstrate a growing awareness of the need to balance energy production with environmental conservation.Furthermore, the role of a dam intake extends beyond just water flow and quality; it also contributes to flood control. During periods of heavy rainfall or snowmelt, the dam intake can be adjusted to manage the amount of water entering the reservoir. This capability is essential for preventing downstream flooding and protecting communities that live near rivers and lakes.In conclusion, the significance of a dam intake cannot be overstated. It serves multiple functions that are vital for efficient water management, energy production, environmental protection, and flood control. As we continue to face challenges related to climate change and population growth, the role of dam intakes in sustainable water resource management will become increasingly important. Understanding and optimizing these structures will be key to ensuring that we can meet our energy needs while also protecting our natural ecosystems and communities. The future of water management lies in our ability to innovate and improve upon existing designs of dam intakes, making them more adaptable and resilient to changing environmental conditions.

“水坝进水口”这一概念在水资源管理和水电站的运行中至关重要。“水坝进水口”是指从水库或河流中抽取水进入水坝以便储存或发电的结构。理解“水坝进水口”的功能可以为我们提供关于其在环境和能源背景下重要性的洞察。首先，水坝进水口的设计在确保水流效率方面发挥着重要作用。它通常位于水坝上一个战略性的位置，在该位置水位最适合进水。工程师在设计“水坝进水口”时必须考虑多种因素，如水深、沉积物负载和潜在的杂物。这些考虑有助于防止可能阻碍水流的堵塞，从而减少水坝的整体效率。此外，设计良好的“水坝进水口”还可以帮助管理水质。通过控制从水库中抽取水的深度，操作人员可以最大限度地减少表面污染物的进水，从而改善用于水电生产的水质。这一点在水质受到关注的地区尤为重要，因为它直接影响到生态系统和依赖这一资源的社区。除了功能性好处外，“水坝进水口”也对环境可持续性产生了影响。许多现代大坝在其“水坝进水口”处整合了鱼道或旁通系统，以允许水生生物自由迁徙。这对于维持生物多样性和支持可能受到大坝影响的鱼类种群至关重要。这些措施展示了人们对平衡能源生产与环境保护需求的日益关注。此外，“水坝进水口”的作用不仅限于水流和水质；它还对洪水控制作出贡献。在降雨或融雪期间，“水坝进水口”可以调整以管理进入水库的水量。这一能力对于防止下游洪水和保护生活在河流和湖泊附近的社区至关重要。总之，“水坝进水口”的重要性不容小觑。它在高效水管理、能源生产、环境保护和洪水控制等多个方面发挥着至关重要的作用。随着我们继续面临气候变化和人口增长相关的挑战，“水坝进水口”在可持续水资源管理中的角色将变得愈加重要。理解和优化这些结构将是确保我们能够满足能源需求的关键，同时也保护我们的自然生态系统和社区。水资源管理的未来在于我们能够创新并改善现有的“水坝进水口”设计，使其更加适应和抵御不断变化的环境条件。