sufface permeability

简明释义

表面渗透率

英英释义

例句

1.High sufface permeability (表面渗透性) in the soil can lead to increased water runoff during heavy rain.

土壤的高sufface permeability (表面渗透性)会导致在大雨期间水流增加。

2.A low sufface permeability (表面渗透性) may cause puddles to form on the driveway after it rains.

低sufface permeability (表面渗透性)可能导致雨后车道上形成水坑。

3.The sufface permeability (表面渗透性) of concrete can affect how quickly water drains away from a surface.

混凝土的sufface permeability (表面渗透性)会影响水从表面排出的速度。

4.Engineers must consider the sufface permeability (表面渗透性) when designing green roofs to manage stormwater effectively.

工程师在设计绿色屋顶时必须考虑sufface permeability (表面渗透性)以有效管理雨水。

5.The construction of the new parking lot will require an assessment of the sufface permeability (表面渗透性) to ensure proper drainage.

新停车场的建设将需要评估sufface permeability (表面渗透性)以确保适当的排水。

作文

Surface permeability is a crucial concept in various fields, including environmental science, civil engineering, and agriculture. It refers to the ability of a surface to allow fluids, such as water or air, to pass through it. Understanding sufface permeability (表面渗透性) is essential for managing water resources, designing infrastructure, and promoting sustainable agricultural practices.In environmental science, surface permeability plays a significant role in determining how water interacts with soil and other surfaces. For instance, when it rains, the water either infiltrates the ground or runs off into nearby bodies of water. The rate at which this infiltration occurs depends on the sufface permeability (表面渗透性) of the soil. Soils with high permeability allow water to seep in quickly, reducing surface runoff and minimizing erosion. Conversely, low-permeability soils can lead to increased runoff, which may contribute to flooding and water quality issues.In civil engineering, understanding sufface permeability (表面渗透性) is vital for constructing effective drainage systems and managing stormwater. Engineers must assess the permeability of various materials, such as concrete and asphalt, to ensure that they can adequately handle rainfall and prevent water accumulation. By designing surfaces with appropriate permeability, engineers can mitigate the risks of flooding and water damage to infrastructure.Agriculture also benefits greatly from the study of sufface permeability (表面渗透性). Farmers need to know how well their fields can absorb water to optimize irrigation practices. In areas with high permeability, crops may require more frequent watering, while those in low-permeability areas may retain moisture longer. Additionally, understanding the permeability of the soil helps farmers determine the best times for planting and harvesting, ensuring that crops receive the right amount of water throughout their growth cycle.Moreover, the concept of sufface permeability (表面渗透性) extends beyond just water. It is also relevant in understanding air movement through soil and other surfaces. This is particularly important in agriculture, where the exchange of gases between the soil and the atmosphere affects plant growth. High permeability allows for better aeration, promoting healthy root development and overall plant health.In conclusion, sufface permeability (表面渗透性) is a fundamental property that influences many aspects of our environment and daily lives. From managing water resources to designing resilient infrastructure and optimizing agricultural practices, a thorough understanding of surface permeability is essential. As we face challenges related to climate change and resource management, the importance of studying and applying the principles of sufface permeability (表面渗透性) will only continue to grow. By prioritizing research and education on this topic, we can develop more effective strategies for sustainability and resilience in our communities.

表面渗透性是多个领域中的一个关键概念，包括环境科学、土木工程和农业。它指的是表面允许液体（如水或空气）通过的能力。理解sufface permeability（表面渗透性）对于管理水资源、设计基础设施和促进可持续农业实践至关重要。在环境科学中，表面渗透性在确定水与土壤及其他表面之间的相互作用方面起着重要作用。例如，当下雨时，水要么渗入地下，要么流入附近的水体。这个渗透的速度取决于土壤的sufface permeability（表面渗透性）。高渗透性的土壤允许水迅速渗入，从而减少地表径流并最小化侵蚀。相反，低渗透性的土壤可能导致径流增加，这可能会导致洪水和水质问题。在土木工程中，理解sufface permeability（表面渗透性）对构建有效的排水系统和管理雨水至关重要。工程师必须评估各种材料（如混凝土和沥青）的渗透性，以确保它们能够适当地处理降雨并防止水的积聚。通过设计具有适当渗透性的表面，工程师可以减轻洪水和水对基础设施造成损害的风险。农业也从研究sufface permeability（表面渗透性）中受益匪浅。农民需要了解他们的田地吸收水分的能力，以优化灌溉实践。在渗透性高的地区，作物可能需要更频繁的浇水，而在低渗透性地区，土壤可能会保留水分更长时间。此外，理解土壤的渗透性帮助农民确定最佳的播种和收获时间，确保作物在生长周期中获得适量的水分。此外，sufface permeability（表面渗透性）的概念不仅限于水。它在理解空气通过土壤和其他表面的运动方面也相关。这在农业中特别重要，因为土壤与大气之间气体的交换影响植物的生长。高渗透性允许更好的通气，促进健康的根系发育和整体植物健康。总之，sufface permeability（表面渗透性）是影响我们环境和日常生活许多方面的基本属性。从管理水资源到设计有韧性的基础设施以及优化农业实践，全面理解表面渗透性至关重要。随着我们面临气候变化和资源管理相关的挑战，研究和应用sufface permeability（表面渗透性）原理的重要性只会继续增长。通过优先考虑这一主题的研究和教育，我们可以制定更有效的可持续发展和韧性战略，以应对我们的社区面临的挑战。