intake tower

简明释义

进水塔

英英释义

例句

1.The intake tower is equipped with screens to filter out large particles.

该取水塔配备了筛网，以过滤掉大颗粒。

2.Engineers inspected the intake tower for any signs of wear and tear.

工程师检查了取水塔是否有磨损迹象。

3.The design of the intake tower helps prevent debris from entering the water supply.

该取水塔的设计有助于防止杂物进入水源。

4.The water is drawn from the lake through the intake tower.

水通过取水塔从湖中抽取。

5.During maintenance, the team had to drain the reservoir to access the intake tower.

在维护期间，团队必须排干水库以接触取水塔。

作文

The concept of the intake tower is crucial in the field of civil engineering and water management. An intake tower is a structure designed to draw water from a reservoir or lake, typically for the purpose of supplying municipal water systems or for hydroelectric power generation. These towers are strategically placed to ensure that the water collected is clean and free from debris, which can be detrimental to water quality and infrastructure. The design of an intake tower usually includes a series of screens or filters that prevent larger objects from entering the water supply, ensuring that only clean water is taken in. One of the primary functions of the intake tower is to control the depth from which water is taken. This is important because water quality can vary at different depths due to temperature stratification and the presence of sediments. By adjusting the intake level, engineers can optimize the quality of the water being collected. For instance, during certain seasons, the surface water may be warmer and contain more organic material, while deeper water may be cooler and clearer. The ability to select the appropriate depth is a significant advantage provided by the intake tower. Moreover, the intake tower plays a vital role in the operation of hydroelectric power plants. In these facilities, water is drawn into the turbines through the intake tower, where it is then used to generate electricity. The efficiency of power generation can be influenced by the design and location of the intake tower, making it a critical component in the overall functioning of the plant. Engineers must carefully consider factors such as water flow rates, pressure, and potential environmental impacts when designing these structures. In addition to their technical functions, intake towers can also have aesthetic and cultural significance. Many of these structures are designed with architectural considerations in mind, blending functionality with visual appeal. For example, some intake towers are constructed with unique shapes or materials that enhance the landscape around them. They can become landmarks within a community, symbolizing the importance of water management and sustainability. Furthermore, the maintenance of an intake tower is essential to ensure its longevity and effectiveness. Regular inspections and cleaning are necessary to prevent blockages and to maintain the integrity of the filtration systems. Failure to properly maintain an intake tower can lead to significant issues, including reduced water quality and supply disruptions. Therefore, water management authorities must allocate resources for the upkeep of these critical infrastructures. In conclusion, the intake tower is an integral part of our water supply and energy generation systems. Its design and functionality are key to ensuring that we have access to clean water and reliable energy. As we continue to face challenges related to climate change and population growth, the importance of efficient water management solutions like the intake tower will only increase. By understanding and investing in these structures, we can work towards a more sustainable future, ensuring that both people and the environment benefit from effective water management practices.

“取水塔”的概念在土木工程和水资源管理领域至关重要。取水塔是一种结构，旨在从水库或湖泊中抽取水，通常用于供应市政供水系统或水电发电。这些塔通常被战略性地放置，以确保收集到的水是干净的，不含杂物，这些杂物可能会对水质和基础设施造成危害。取水塔的设计通常包括一系列筛网或过滤器，可以防止较大物体进入水源，确保只吸入清洁水。取水塔的主要功能之一是控制取水的深度。这一点很重要，因为不同深度的水质可能会因温度分层和沉积物的存在而有所不同。通过调整进水水平，工程师可以优化所收集水的质量。例如，在某些季节，表层水可能较暖且含有更多有机物，而较深的水则可能较冷且更清澈。选择适当深度的能力是取水塔提供的一个显著优势。此外，取水塔在水电厂的运行中也发挥着至关重要的作用。在这些设施中，水通过取水塔被引入涡轮机，用于发电。发电效率可能会受到取水塔的设计和位置的影响，使其成为整个工厂运作中的关键组成部分。工程师在设计这些结构时，必须仔细考虑水流速、压力和潜在环境影响等因素。除了技术功能外，取水塔还可能具有美学和文化意义。许多这些结构在设计时考虑了建筑因素，将功能与视觉吸引力相结合。例如，一些取水塔采用独特的形状或材料建造，增强了周围的景观。它们可以成为社区内的地标，象征着水资源管理和可持续发展的重要性。此外，维护取水塔对于确保其耐用性和有效性至关重要。定期检查和清洁是必要的，以防止堵塞并保持过滤系统的完整性。如果不妥善维护取水塔，可能会导致重大问题，包括水质下降和供水中断。因此，水资源管理部门必须为这些关键基础设施的维护分配资源。总之，取水塔是我们水供应和能源生产系统的重要组成部分。其设计和功能是确保我们获得清洁水和可靠能源的关键。随着我们继续面临气候变化和人口增长带来的挑战，像取水塔这样的高效水资源管理解决方案的重要性只会增加。通过理解和投资于这些结构，我们可以朝着更可持续的未来努力，确保人们和环境都能受益于有效的水资源管理实践。