amount of seepage

简明释义

渗透水量

英英释义

例句

1.We need to reduce the amount of seepage from the water tank to prevent flooding.

我们需要减少水箱的渗漏量以防止洪水。

2.The amount of seepage detected in the basement is a sign of a larger problem.

地下室检测到的渗漏量是一个更大问题的迹象。

3.After the heavy rain, the amount of seepage in the soil increased significantly.

大雨过后，土壤中的渗漏量显著增加。

4.Monitoring the amount of seepage can help us maintain the integrity of the structure.

监测渗漏量可以帮助我们维护结构的完整性。

5.The engineer measured the amount of seepage in the dam to ensure its safety.

工程师测量了大坝的渗漏量以确保其安全。

作文

Seepage is a natural phenomenon that occurs when water or other liquids move through porous materials, such as soil or rock. Understanding the amount of seepage (渗漏量) is crucial for various fields, including geology, civil engineering, and environmental science. In this essay, we will explore the significance of measuring the amount of seepage (渗漏量), the factors that influence it, and its implications for our environment.First and foremost, measuring the amount of seepage (渗漏量) is essential for assessing groundwater resources. Groundwater is a vital source of drinking water for millions of people worldwide. By understanding how much water seeps through the ground, scientists can determine the recharge rates of aquifers and manage these resources sustainably. For instance, in areas experiencing drought, knowing the amount of seepage (渗漏量) can help water management authorities make informed decisions about water usage and conservation strategies.Moreover, the amount of seepage (渗漏量) plays a critical role in construction projects. Engineers must consider seepage when designing foundations, retaining walls, and drainage systems. Excessive seepage can lead to soil erosion, instability, and even structural failure. Therefore, accurately measuring the amount of seepage (渗漏量) is vital to ensure the safety and longevity of infrastructure. For example, during the construction of a dam, engineers conduct extensive studies to evaluate the amount of seepage (渗漏量) to prevent potential leaks that could compromise the dam's integrity.In addition to its importance in resource management and construction, the amount of seepage (渗漏量) also has significant environmental implications. When contaminants seep into the ground, they can pollute groundwater supplies. Understanding the amount of seepage (渗漏量) helps environmental scientists assess the risk of contamination and develop remediation strategies. For instance, if a chemical spill occurs, monitoring the amount of seepage (渗漏量) can provide insights into how far the contaminants might spread and inform cleanup efforts.Several factors influence the amount of seepage (渗漏量), including soil type, moisture content, and the presence of vegetation. Sandy soils typically allow for greater seepage compared to clay soils, which retain water more effectively. Additionally, the moisture content of the soil can affect its permeability; saturated soils may exhibit increased seepage rates. Vegetation also plays a role, as plant roots can create channels for water to flow, altering the overall seepage dynamics.To measure the amount of seepage (渗漏量), various methods are employed, ranging from simple field tests to advanced modeling techniques. One common approach is to use piezometers, which are devices that measure the water pressure in the soil. By analyzing the data collected from these instruments, scientists can estimate the amount of seepage (渗漏量) and gain insights into the hydrological processes at play.In conclusion, understanding the amount of seepage (渗漏量) is vital for managing water resources, ensuring the safety of construction projects, and protecting the environment. As we face increasing challenges related to water scarcity and pollution, the ability to accurately measure and interpret seepage will become even more critical. By investing in research and technology to better understand the amount of seepage (渗漏量), we can make informed decisions that benefit both our society and the natural world.

渗漏是一个自然现象，发生在水或其他液体通过多孔材料（如土壤或岩石）时。理解amount of seepage（渗漏量）对地质学、土木工程和环境科学等多个领域至关重要。在这篇文章中，我们将探讨测量amount of seepage（渗漏量）的重要性、影响因素及其对环境的影响。首先，测量amount of seepage（渗漏量）对于评估地下水资源至关重要。地下水是全球数百万人的饮用水重要来源。通过了解水在地下渗透的量，科学家可以确定含水层的补给速率，并可持续地管理这些资源。例如，在经历干旱的地区，了解amount of seepage（渗漏量）可以帮助水资源管理部门做出关于水使用和保护策略的明智决策。此外，amount of seepage（渗漏量）在建设项目中也起着关键作用。工程师在设计基础、挡土墙和排水系统时必须考虑渗漏。过多的渗漏可能导致土壤侵蚀、不稳定，甚至结构失败。因此，准确测量amount of seepage（渗漏量）对于确保基础设施的安全和持久性至关重要。例如，在修建大坝时，工程师会进行广泛的研究，以评估amount of seepage（渗漏量），以防止潜在的泄漏危及大坝的完整性。除了在资源管理和建筑中的重要性外，amount of seepage（渗漏量）还具有显著的环境影响。当污染物渗入地下时，它们可能会污染地下水供应。理解amount of seepage（渗漏量）有助于环境科学家评估污染风险并制定修复策略。例如，如果发生化学泄漏，监测amount of seepage（渗漏量）可以提供污染物可能扩散多远的见解，并为清理工作提供信息。影响amount of seepage（渗漏量）的因素有很多，包括土壤类型、湿度和植被的存在。沙土通常比粘土更容易渗透，后者更有效地保持水分。此外，土壤的湿度也会影响其渗透性；饱和土壤可能表现出更高的渗漏率。植被也起着作用，因为植物根系可以为水流创造通道，从而改变整体渗漏动态。为了测量amount of seepage（渗漏量），采用了多种方法，从简单的现场测试到先进的建模技术。一种常见的方法是使用压水计，这是一种测量土壤中水压的设备。通过分析从这些仪器收集的数据，科学家可以估算amount of seepage（渗漏量），并深入了解水文过程。总之，理解amount of seepage（渗漏量）对管理水资源、确保建筑项目的安全以及保护环境至关重要。随着我们面临与水资源稀缺和污染相关的日益挑战，准确测量和解释渗漏的能力将变得更加重要。通过投资于研究和技术，更好地理解amount of seepage（渗漏量），我们可以做出有利于社会和自然界的明智决策。