waterplane permeability

简明释义

水线面积渗透率

英英释义

例句

1.The engineers conducted tests to measure the waterplane permeability 水面渗透性 of the new material used in the construction.

工程师们进行了测试，以测量用于建筑的新材料的水面渗透性。

2.Researchers found that the waterplane permeability 水面渗透性 of the soil varied significantly with moisture levels.

研究人员发现，土壤的水面渗透性随着湿度水平的变化而显著不同。

3.Understanding waterplane permeability 水面渗透性 is crucial for designing effective drainage systems.

理解水面渗透性对于设计有效的排水系统至关重要。

4.The study focused on how waterplane permeability 水面渗透性 affects the stability of floating structures.

该研究集中于水面渗透性如何影响浮动结构的稳定性。

5.To improve flood management, we need to assess the waterplane permeability 水面渗透性 of urban areas.

为了改善洪水管理，我们需要评估城市地区的水面渗透性。

作文

Water is an essential resource for life, and understanding how it interacts with various environments is crucial for sustainable management. One important concept in this field is waterplane permeability, which refers to the ability of water to flow through a surface or material. This property is particularly significant in civil engineering and environmental science, as it influences how water moves in and around structures such as dams, levees, and buildings. 水面渗透性是指水通过某一表面或材料的能力。这一特性在土木工程和环境科学中尤为重要，因为它影响着水在大坝、堤坝和建筑物等结构内外的流动。 The study of waterplane permeability involves analyzing various factors that affect water movement, including the composition of the material, its porosity, and the pressure exerted by the water. For example, sandy soils typically exhibit high waterplane permeability because of their larger pore spaces, allowing water to pass through easily. In contrast, clayey soils have low waterplane permeability due to their smaller pores, which can lead to water retention and increased flooding risks. Understanding waterplane permeability is also vital for designing effective drainage systems. Engineers must consider this property when planning infrastructure projects to ensure that water is managed efficiently and does not accumulate in unwanted areas. For instance, if a parking lot is designed without adequate consideration of waterplane permeability, it may lead to pooling water during heavy rains, causing damage to vehicles and creating hazardous conditions for pedestrians. Moreover, waterplane permeability plays a critical role in environmental conservation efforts. Wetlands, for example, are natural systems that rely on their ability to manage water effectively. The waterplane permeability of wetland soils allows them to filter pollutants and provide habitats for diverse wildlife. Maintaining these ecosystems requires a deep understanding of how waterplane permeability functions and how it can be preserved or restored. In conclusion, the concept of waterplane permeability is integral to various fields, including engineering, environmental science, and urban planning. By comprehensively studying this property, we can enhance our ability to manage water resources sustainably and mitigate the impacts of flooding and pollution. As our world continues to face challenges related to climate change and population growth, the importance of understanding waterplane permeability will only increase in the coming years. In summary, waterplane permeability is a key factor in understanding water movement through different materials and surfaces. It affects everything from construction practices to environmental conservation efforts, making it an essential topic for anyone involved in managing water resources. By prioritizing research and education on waterplane permeability, we can work towards a more sustainable future where water is managed wisely and effectively.

水是生命的重要资源，理解水与各种环境的相互作用对于可持续管理至关重要。在这一领域，一个重要的概念是水面渗透性，它指的是水通过某一表面或材料的能力。这一特性在土木工程和环境科学中尤为重要，因为它影响着水在大坝、堤坝和建筑物等结构内外的流动。水面渗透性是指水通过某一表面或材料的能力。这一特性在土木工程和环境科学中尤为重要，因为它影响着水在大坝、堤坝和建筑物等结构内外的流动。对水面渗透性的研究涉及分析影响水流动的各种因素，包括材料的成分、孔隙率以及水施加的压力。例如，沙质土壤通常表现出高水面渗透性，因为其较大的孔隙空间，使水能够轻松通过。相比之下，粘土土壤由于其较小的孔隙，具有低水面渗透性，这可能导致水的滞留和增加洪水风险。理解水面渗透性对于设计有效的排水系统也至关重要。在规划基础设施项目时，工程师必须考虑这一特性，以确保水得到有效管理，不会在不希望的区域积聚。例如，如果一个停车场的设计没有充分考虑水面渗透性，在大雨期间可能会导致水池积聚，从而对车辆造成损害，并为行人创造危险的条件。此外，水面渗透性在环境保护工作中发挥着关键作用。例如，湿地是一种依赖于有效管理水的自然系统。湿地土壤的水面渗透性使其能够过滤污染物并为多样的野生动物提供栖息地。维护这些生态系统需要深入理解水面渗透性的功能以及如何保持或恢复它。总之，水面渗透性的概念对土木工程、环境科学和城市规划等多个领域至关重要。通过全面研究这一特性，我们可以增强可持续管理水资源的能力，减轻洪水和污染的影响。随着我们的世界继续面临气候变化和人口增长相关的挑战，理解水面渗透性的重要性在未来几年只会增加。总之，水面渗透性是理解水通过不同材料和表面流动的关键因素。它影响从建筑实践到环境保护工作的方方面面，使其成为任何参与水资源管理的人的重要主题。通过优先考虑对水面渗透性的研究和教育，我们可以朝着一个更可持续的未来努力，在这个未来中，水被明智而有效地管理。