infiltration routing

简明释义

渗透计算

英英释义

例句

1.Incorporating infiltration routing in the park design helps maintain a natural water cycle.

在公园设计中纳入渗透引导有助于维持自然水循环。

2.The engineering team is studying the effects of infiltration routing on local ecosystems.

工程团队正在研究渗透引导对当地生态系统的影响。

3.By implementing infiltration routing, the city aims to reduce flooding during heavy rainfall.

通过实施渗透引导，城市旨在减少暴雨期间的洪水。

4.The new urban development plan incorporates infiltration routing to manage stormwater effectively.

新的城市发展计划采用渗透引导来有效管理雨水。

5.The landscape architect suggested infiltration routing systems to enhance groundwater recharge.

景观设计师建议采用渗透引导系统以增强地下水补给。

作文

In recent years, the concept of infiltration routing has gained significant attention in the fields of environmental engineering and urban planning. This innovative approach focuses on managing stormwater runoff by allowing water to infiltrate into the ground rather than being directed to traditional drainage systems. The primary goal of infiltration routing is to minimize flooding and reduce the risk of water pollution in our urban environments. By understanding how this method works, we can appreciate its importance in sustainable development.The process of infiltration routing involves designing landscapes and infrastructures that facilitate the absorption of rainwater into the soil. This is achieved through various techniques such as permeable pavements, green roofs, and bioswales. These elements not only help manage stormwater but also enhance the aesthetic value of urban areas. For instance, a bioswale is a landscape element designed to concentrate or remove debris and pollution out of surface runoff water. It typically consists of a shallow, vegetated channel that allows water to flow slowly, promoting infiltration.One of the key advantages of infiltration routing is its ability to recharge groundwater supplies. In many urban areas, impervious surfaces like roads and buildings prevent water from soaking into the ground. This leads to increased runoff, which can overwhelm drainage systems and result in flooding. By implementing infiltration routing, cities can restore natural hydrological processes, allowing more water to percolate into the soil and replenish aquifers. This is particularly crucial in regions facing water scarcity, where every drop counts.Moreover, infiltration routing plays a vital role in improving water quality. When stormwater flows over impervious surfaces, it picks up pollutants such as oils, heavy metals, and sediments. If this polluted runoff enters rivers and lakes without treatment, it can harm aquatic ecosystems and pose risks to human health. By utilizing infiltration routing, contaminants have the opportunity to be filtered through the soil, significantly reducing the amount of pollution that reaches our waterways.Additionally, infiltration routing contributes to climate resilience. With climate change leading to more frequent and intense storms, traditional drainage systems are often unable to cope with the volume of water. This can result in catastrophic flooding events. By incorporating infiltration routing strategies, cities can better manage stormwater, reducing the likelihood of flooding and protecting infrastructure.Despite its numerous benefits, implementing infiltration routing can present challenges. Urban planners must consider factors such as soil type, land use, and existing infrastructure. Not all soils are suitable for infiltration, and in some cases, retrofitting existing sites can be complicated. However, with careful planning and innovative design, these challenges can be overcome.In conclusion, infiltration routing represents a promising solution for managing stormwater in urban areas. Its ability to reduce flooding, improve water quality, and enhance groundwater recharge makes it an essential component of sustainable urban development. As cities continue to grow and face environmental challenges, adopting practices like infiltration routing will be crucial in creating resilient and livable communities for future generations.

近年来，渗透引导的概念在环境工程和城市规划领域引起了广泛关注。这种创新的方法专注于通过让雨水渗透到地下而不是被引导到传统排水系统来管理暴雨径流。渗透引导的主要目标是最小化洪水风险，减少城市环境中的水污染。通过理解这种方法的工作原理，我们可以更好地认识它在可持续发展中的重要性。渗透引导的过程涉及设计景观和基础设施，以促进雨水渗入土壤。这是通过各种技术实现的，如透水铺装、绿色屋顶和生物沟。这些元素不仅有助于管理暴雨水，还增强了城市地区的美学价值。例如，生物沟是一种景观元素，旨在集中或去除地表径流水中的杂物和污染物。它通常由一个浅而植被覆盖的通道组成，允许水缓慢流动，促进渗透。渗透引导的一个关键优点是其能够补充地下水资源。在许多城市地区，像道路和建筑物这样的不透水表面阻止水分渗入地下。这导致径流增加，可能会使排水系统不堪重负，导致洪水。通过实施渗透引导，城市可以恢复自然水文过程，让更多的水渗透到土壤中，补充含水层。这在面临水资源短缺的地区尤为重要，因为每一滴水都至关重要。此外，渗透引导在改善水质方面也发挥着重要作用。当暴雨水在不透水表面上流动时，它会带走油、重金属和沉积物等污染物。如果未经处理的污染径流进入河流和湖泊，就可能对水生生态系统造成危害，并对人类健康构成风险。通过利用渗透引导，污染物有机会通过土壤过滤，从而显著减少到达水道的污染物数量。此外，渗透引导有助于提高气候适应能力。随着气候变化导致更频繁和强烈的暴风雨，传统排水系统往往无法应对水量。这可能导致灾难性的洪水事件。通过结合渗透引导策略，城市可以更好地管理暴雨水，减少洪水的可能性，保护基础设施。尽管有众多好处，但实施渗透引导也可能面临挑战。城市规划者必须考虑土壤类型、土地使用和现有基础设施等因素。并非所有土壤都适合渗透，在某些情况下，改造现有场所可能会很复杂。然而，通过精心规划和创新设计，这些挑战是可以克服的。总之，渗透引导代表了一种有前景的解决方案，用于管理城市地区的暴雨水。其减少洪水、改善水质和增强地下水补给的能力，使其成为可持续城市发展的重要组成部分。随着城市不断增长并面临环境挑战，采用像渗透引导这样的做法对于为未来几代人创造有韧性和宜居的社区至关重要。