water permeability

简明释义

渗水性

英英释义

例句

1.The drainage system was designed considering the water permeability 水渗透性 of the surrounding area.

排水系统的设计考虑了周围地区的水渗透性。

2.Agricultural experts recommend soils with moderate water permeability 水渗透性 for optimal crop growth.

农业专家推荐中等水渗透性的土壤以实现最佳作物生长。

3.High water permeability 水渗透性 in certain types of rock can lead to groundwater contamination.

某些类型岩石的水渗透性高可能导致地下水污染。

4.The construction team conducted tests to measure the water permeability 水渗透性 of the soil before building the foundation.

施工团队在建造基础之前进行了测试，以测量土壤的水渗透性。

5.Researchers studied the water permeability 水渗透性 of various materials for use in eco-friendly construction.

研究人员研究了各种材料的水渗透性，以用于环保建筑。

作文

Water permeability is a crucial concept in various fields, including environmental science, civil engineering, and agriculture. It refers to the ability of soil or rock to allow water to flow through it. Understanding water permeability (水渗透性) is essential for managing water resources effectively and ensuring sustainable development. This property influences how water moves through the ground, affecting everything from plant growth to the stability of structures built on or within the soil.In agriculture, water permeability (水渗透性) plays a significant role in irrigation practices. Soils with high water permeability (水渗透性) allow water to drain quickly, which can be beneficial in preventing waterlogging. However, if the permeability is too high, crops may not receive sufficient moisture, leading to drought stress. Conversely, soils with low water permeability (水渗透性) can retain water, but excessive saturation can lead to root rot and other plant diseases. Therefore, farmers must understand the water permeability (水渗透性) of their soils to optimize irrigation strategies.In urban planning and civil engineering, water permeability (水渗透性) is critical for stormwater management. As cities expand and natural landscapes are replaced with concrete and asphalt, the water permeability (水渗透性) of the land decreases significantly. This reduction in permeability leads to increased surface runoff, which can overwhelm drainage systems and cause flooding. Engineers and planners must consider water permeability (水渗透性) when designing infrastructure to manage stormwater effectively. Techniques such as permeable pavements and green roofs are being implemented to enhance the water permeability (水渗透性) of urban areas, allowing rainwater to infiltrate the ground rather than running off into sewers.Environmental scientists also study water permeability (水渗透性) to understand groundwater recharge and contamination. The rate at which water can move through soil and rock layers affects how quickly aquifers can be replenished. High water permeability (水渗透性) in certain areas can facilitate rapid recharge, while low permeability zones can create barriers that slow down this process. Additionally, understanding water permeability (水渗透性) is vital for assessing the risk of contaminants reaching groundwater supplies. If pollutants are introduced to a permeable layer, they can quickly spread into the water table, posing risks to drinking water quality.In conclusion, water permeability (水渗透性) is a multifaceted concept that impacts agriculture, urban planning, and environmental protection. Its implications are far-reaching, affecting everything from crop yields to flood management and groundwater safety. As we face challenges related to climate change and population growth, understanding and managing water permeability (水渗透性) will become increasingly important. By employing sustainable practices that consider the water permeability (水渗透性) of different landscapes, we can better protect our natural resources and ensure a resilient future for our communities.