path of seepage

简明释义

渗哩路

英英释义

例句

1.Identifying the path of seepage in the soil helped in designing better drainage systems.

识别土壤中的渗透路径有助于设计更好的排水系统。

2.We used dye testing to trace the path of seepage in the aquifer.

我们使用染料测试来追踪含水层中的渗透路径。

3.During the inspection, we found that the path of seepage was leading directly into the basement.

在检查中，我们发现渗透路径直接通向地下室。

4.The engineers studied the path of seepage to prevent water from damaging the foundation.

工程师们研究了渗透路径以防止水损坏基础。

5.The construction team had to reroute the path of seepage to ensure safety.

施工队必须重新规划渗透路径以确保安全。

作文

In the study of hydrology, understanding the concept of path of seepage is crucial for predicting how water moves through different types of soil and rock. The path of seepage refers to the route that water takes as it infiltrates the ground and travels through porous materials. This phenomenon is not only important for natural water systems but also has significant implications for civil engineering, agriculture, and environmental management.When rain falls on the surface of the earth, some of it evaporates back into the atmosphere, while some flows over the ground as surface runoff. However, a substantial amount of water seeps into the ground, following the path of seepage. This water can move through various layers of soil, rock, and other geological formations, each with different permeability characteristics. Understanding this movement is essential for managing water resources effectively.For instance, in agriculture, farmers need to know how water will travel through their fields. If they understand the path of seepage, they can make better decisions about irrigation practices, ensuring that crops receive the right amount of water without over-saturating the soil. Over-saturation can lead to root rot and other plant diseases, which can devastate crops. Therefore, knowledge of the path of seepage can directly impact food production and sustainability.In urban planning, the path of seepage becomes even more critical. As cities expand, natural landscapes are altered, and impervious surfaces like roads and buildings are created. These changes affect how water seeps into the ground. For example, if a city does not account for the path of seepage when designing drainage systems, it may face issues such as flooding during heavy rainfall. Engineers must analyze the path of seepage to design effective stormwater management systems that can handle excess water and prevent urban flooding.Moreover, the path of seepage plays a vital role in groundwater recharge. Water that seeps into the ground can replenish aquifers, which are crucial sources of drinking water. Understanding the path of seepage helps hydrogeologists determine how much water can be sustainably extracted from these underground reservoirs without depleting them. This balance is essential for maintaining a stable water supply for communities, especially in arid regions where water scarcity is a pressing issue.In environmental management, the path of seepage is also significant in assessing contamination risks. If pollutants enter the soil, understanding the path of seepage helps predict how far and fast these contaminants might spread. This information is vital for developing remediation strategies to protect groundwater quality and prevent harmful substances from entering drinking water supplies.In conclusion, the path of seepage is a fundamental concept that influences various aspects of water management, from agriculture to urban planning and environmental protection. By studying and understanding this path, we can better manage our water resources, ensuring that they are used efficiently and sustainably. The implications of the path of seepage extend beyond individual projects; they touch on broader issues of environmental health, food security, and community resilience against climate change. Therefore, continued research and education on the path of seepage are essential for fostering a sustainable future.

在水文学的研究中，理解“渗透路径”的概念对于预测水如何通过不同类型的土壤和岩石移动至关重要。“渗透路径”指的是水在渗入地下并穿过多孔材料时所采取的路线。这一现象不仅对自然水系统重要，而且对土木工程、农业和环境管理有着重要影响。当雨水落在地表时，其中一部分蒸发回大气，而另一部分则作为地表径流在地面流动。然而，相当一部分水分会渗入地下，沿着“渗透路径”移动。这些水可以穿过不同层次的土壤、岩石和其他地质构造，每种材料的渗透性特征各不相同。理解这一运动对于有效管理水资源至关重要。例如，在农业中，农民需要知道水将如何在田地中流动。如果他们了解“渗透路径”，就可以更好地做出灌溉实践的决策，确保作物获得适量的水分，而不会使土壤过于饱和。过度饱和可能导致根腐病和其他植物疾病，这可能会摧毁作物。因此，对“渗透路径”的知识可以直接影响粮食生产和可持续性。在城市规划中，“渗透路径”变得更加关键。随着城市扩张，自然景观被改变，不透水的表面如道路和建筑物被创造出来。这些变化影响水分渗入地下的方式。例如，如果城市在设计排水系统时没有考虑“渗透路径”，可能会在强降雨期间面临洪水问题。工程师必须分析“渗透路径”以设计有效的雨水管理系统，能够处理多余的水分并防止城市洪水。此外，“渗透路径”在地下水补给中也起着重要作用。渗入地下的水可以补充含水层，而含水层是饮用水的重要来源。理解“渗透路径”有助于水文地质学家确定可以从这些地下水库中可持续提取多少水而不至于枯竭。这种平衡对于维持社区稳定的水供应至关重要，特别是在水资源匮乏的干旱地区。在环境管理中，“渗透路径”在评估污染风险方面也非常重要。如果污染物进入土壤，理解“渗透路径”有助于预测这些污染物可能传播的距离和速度。这些信息对于制定修复策略以保护地下水质量和防止有害物质进入饮用水供应至关重要。总之，“渗透路径”是一个基本概念，影响着水管理的各个方面，从农业到城市规划再到环境保护。通过研究和理解这一路径，我们可以更好地管理水资源，确保其高效和可持续地使用。“渗透路径”的影响超越了单个项目，涉及更广泛的环境健康、粮食安全和社区应对气候变化的韧性等问题。因此，继续对“渗透路径”进行研究和教育对于促进可持续未来至关重要。