flow regulating

简明释义

流量调节

英英释义

例句

1.In the laboratory, they use a flow regulating valve to control the rate of liquid passing through the pipes.

在实验室，他们使用一个流量调节阀门来控制液体通过管道的流速。

2.The aquarium uses flow regulating pumps to create a natural habitat for the fish.

水族馆使用流量调节泵为鱼类创造自然栖息地。

3.To prevent flooding, the city has implemented flow regulating measures in its drainage system.

为了防止洪水，城市在其排水系统中实施了流量调节措施。

4.The new design includes advanced flow regulating technology to improve energy efficiency.

新设计包括先进的流量调节技术，以提高能效。

5.The irrigation system is equipped with a flow regulating device to maintain consistent water supply.

灌溉系统配备了一个流量调节装置，以保持稳定的水供应。

作文

In modern engineering and environmental management, the concept of flow regulating plays a crucial role in ensuring the sustainability of our water resources. Flow regulating refers to the methods and technologies used to control the rate and volume of water flow in various systems, such as rivers, lakes, and irrigation channels. This practice is essential for managing water supply, preventing flooding, and maintaining ecological balance.One of the primary applications of flow regulating is in the management of river systems. Rivers are dynamic ecosystems that can be significantly affected by human activities. Deforestation, urbanization, and agricultural practices can alter the natural flow of water, leading to erosion, sedimentation, and habitat destruction. By implementing flow regulating measures, such as constructing dams and levees, we can mitigate these impacts and protect both the environment and human settlements.Dams are particularly effective in flow regulating because they store excess water during periods of heavy rainfall and release it gradually during dry spells. This not only helps in flood control but also ensures a steady supply of water for agriculture and domestic use. For example, the Hoover Dam in the United States regulates the flow of the Colorado River, providing water for millions of people and supporting agricultural activities in the arid southwestern states.Moreover, flow regulating is vital for maintaining water quality. When water flows too quickly through a system, it can carry pollutants and sediments that degrade water quality. By regulating the flow, we can allow sediments to settle and reduce the concentration of harmful substances, thus improving the overall health of aquatic ecosystems. This is particularly important in areas where industrial runoff and agricultural chemicals threaten water bodies.In addition to natural water bodies, flow regulating is also crucial in urban environments. Cities often face challenges related to stormwater management. Inadequate drainage systems can lead to urban flooding, causing damage to infrastructure and posing risks to public safety. Implementing flow regulating techniques, such as green roofs, permeable pavements, and retention basins, can help manage stormwater effectively. These solutions not only reduce flooding but also enhance the aesthetic appeal of urban areas and promote biodiversity.Furthermore, flow regulating is essential in agricultural practices. Farmers rely on consistent water supply for irrigation, and fluctuations in water availability can lead to crop failure. By using techniques such as drip irrigation and controlled drainage, farmers can optimize water usage and ensure that their crops receive the right amount of water at the right time. This not only increases agricultural productivity but also conserves water resources, making farming more sustainable.In conclusion, the importance of flow regulating cannot be overstated. It is a fundamental aspect of water resource management that impacts various sectors, including environmental conservation, urban planning, and agriculture. As we continue to face challenges related to climate change and population growth, the need for effective flow regulating strategies will only become more critical. By investing in innovative technologies and sustainable practices, we can ensure that our water resources are managed responsibly for future generations.

在现代工程和环境管理中，流量调节的概念在确保我们水资源的可持续性方面发挥着至关重要的作用。流量调节指的是用于控制各种系统（如河流、湖泊和灌溉渠道）中水流速率和体积的方法和技术。这一做法对于管理水供应、防止洪水和维持生态平衡至关重要。流量调节的主要应用之一是河流系统的管理。河流是动态生态系统，人类活动可能会显著影响它们。森林砍伐、城市化和农业实践可以改变水的自然流动，导致侵蚀、沉积和栖息地破坏。通过实施流量调节措施，如修建大坝和堤防，我们可以减轻这些影响，保护环境和人类居住区。大坝在流量调节方面尤其有效，因为它们在强降雨期间储存多余的水，并在干旱时期逐渐释放。这不仅有助于洪水控制，还确保农业和家庭用水的稳定供应。例如，美国的胡佛大坝调节科罗拉多河的流量，为数百万人提供水源，并支持干旱西南部各州的农业活动。此外，流量调节对维护水质至关重要。当水流过快时，它会携带污染物和沉积物，降低水质。通过调节流量，我们可以使沉积物沉淀下来，减少有害物质的浓度，从而改善水生生态系统的整体健康。这在工业径流和农业化学品威胁水体的地区尤为重要。除了自然水体，流量调节在城市环境中也至关重要。城市通常面临与雨水管理相关的挑战。排水系统不足可能导致城市洪水，损坏基础设施并对公共安全构成风险。实施流量调节技术，如绿色屋顶、透水铺装和滞留池，可以有效管理雨水。这些解决方案不仅减少了洪水，还增强了城市区域的美观，并促进了生物多样性。此外，流量调节在农业实践中也至关重要。农民依赖稳定的水供应进行灌溉，水供应的波动可能导致作物失收。通过使用滴灌和控制排水等技术，农民可以优化水的使用，确保作物在适当的时间获得适量的水。这不仅提高了农业生产力，还节约了水资源，使农业更加可持续。总之，流量调节的重要性不容小觑。它是水资源管理的基本方面，影响着环境保护、城市规划和农业等多个领域。随着我们继续面临气候变化和人口增长相关的挑战，有效的流量调节策略的需求将变得更加迫切。通过投资创新技术和可持续实践，我们可以确保我们的水资源为未来世代负责任地管理。