piezometric level

简明释义

测压管水位

英英释义

例句

1.Hydrologists often study the piezometric level （孔隙水位） to understand aquifer behavior.

水文学家通常研究piezometric level （孔隙水位）以理解含水层的行为。

2.Monitoring the piezometric level （孔隙水位） helps in managing water resources effectively.

监测piezometric level （孔隙水位）有助于有效管理水资源。

3.The engineer measured the piezometric level （孔隙水位） to assess groundwater conditions.

工程师测量了piezometric level （孔隙水位）以评估地下水条件。

4.A drop in the piezometric level （孔隙水位） can indicate over-extraction of groundwater.

在piezometric level （孔隙水位）中出现下降可能表明地下水的过度开采。

5.The piezometric level （孔隙水位） was recorded at 10 meters below ground level.

记录的piezometric level （孔隙水位）为地下10米处。

作文

Understanding the concept of piezometric level is crucial for various fields, including hydrology, civil engineering, and environmental science. The term refers to the height to which water will rise in a piezometer, which is a device used to measure the pressure of groundwater. Essentially, the piezometric level indicates the potential energy of water within an aquifer or a confined space. It is significant because it helps engineers and scientists determine the behavior of groundwater in relation to surrounding structures and ecosystems.In hydrology, the piezometric level plays a pivotal role in understanding groundwater flow. By measuring the piezometric level, hydrologists can assess the hydraulic gradient, which is the slope of the groundwater level. This gradient influences how water moves through soil and rock layers, affecting everything from irrigation practices to the sustainability of water resources. For example, if the piezometric level is significantly lower than the surface water level, it may indicate that groundwater is being depleted faster than it is being replenished, prompting the need for conservation measures.In civil engineering, the piezometric level is essential when designing foundations and underground structures. Engineers must consider the piezometric level to ensure that their designs can withstand the pressures exerted by groundwater. If the piezometric level rises unexpectedly, it could lead to structural failures or flooding. Therefore, monitoring the piezometric level during construction projects is critical to maintaining safety and integrity.Moreover, the piezometric level is vital in environmental science, particularly in the study of contamination and remediation. When pollutants enter groundwater, understanding the piezometric level helps scientists predict the spread of contaminants. By knowing how high the water table is, researchers can evaluate the risk of pollution reaching drinking water supplies and develop strategies to mitigate these risks.In conclusion, the piezometric level is more than just a technical term; it is a fundamental concept that influences various aspects of our interaction with water resources. Whether in assessing groundwater flow, designing safe structures, or managing environmental risks, the piezometric level provides invaluable insights. As we continue to face challenges related to water scarcity and contamination, understanding and monitoring the piezometric level will be essential for sustainable management of our precious water resources.

理解<piezometric level>的概念对于水文学、土木工程和环境科学等多个领域至关重要。这个术语指的是水在测压管中上升的高度，测压管是一种用于测量地下水压力的装置。基本上，<piezometric level>表示水在含水层或封闭空间内的势能。它的重要性在于，它帮助工程师和科学家确定地下水与周围结构和生态系统之间的相互作用。在水文学中，<piezometric level>在理解地下水流动中发挥着关键作用。通过测量<piezometric level>，水文学家可以评估水力梯度，即地下水位的坡度。这个梯度影响水如何通过土壤和岩石层移动，从而影响灌溉实践和水资源的可持续性。例如，如果<piezometric level>显著低于地表水位，这可能表明地下水的消耗速度快于补给速度，从而促使采取保护措施。在土木工程中，<piezometric level>在设计基础和地下结构时至关重要。工程师必须考虑<piezometric level>以确保他们的设计能够承受地下水施加的压力。如果<piezometric level>意外上升，可能会导致结构失效或洪水。因此，在施工项目中监测<piezometric level>对维护安全和完整性至关重要。此外，<piezometric level>在环境科学中也至关重要，尤其是在污染和修复研究中。当污染物进入地下水时，了解<piezometric level>有助于科学家预测污染物的扩散。通过了解水位的高度，研究人员可以评估污染物达到饮用水源的风险，并制定减轻这些风险的策略。总之，<piezometric level>不仅仅是一个技术术语；它是一个基本概念，影响我们与水资源互动的各个方面。无论是在评估地下水流动、设计安全结构还是管理环境风险，<piezometric level>都提供了宝贵的见解。随着我们继续面临与水资源短缺和污染相关的挑战，理解和监测<piezometric level>将对可持续管理我们珍贵的水资源至关重要。