压力波对非饱和多孔介质吸水和渗流的影响

IF 4.6 1区 地球科学 Q2 ENVIRONMENTAL SCIENCES
Doron Kalisman, A. Yakirevich, S. Sorek, T. Kamai
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引用次数: 0

摘要

在干多孔介质中吸水过程中的润湿锋动力学影响最终的水分布模式。在这项研究中,我们研究了在水相中发射波的压力脉冲对多孔介质中水分分布和自吸模式的影响。我们给出了在突然压力水脉冲下入渗后沙柱中水空间分布的实验结果,并将其与连续入流的结果进行了比较。在渗透过程中施加压力波会增加润湿锋后面的压力梯度,这可以克服毛细管力和重力,导致均匀的自吸。为了模拟这一过程,我们开发了一个孔隙网络模型,该模型结合了压力波衰减的分析解,以预测自吸模式。我们的结果表明,与达西型连续流相比,压力波的振幅与尖锐的润湿锋有关,导致含水量更高。研究结果表明,压力波有可能在非饱和介质中实现高含水量,并深入了解其对水分布影响的空间范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Pressure Waves on Water Imbibition and Flow in Unsaturated Porous Media
The wetting front dynamics during water imbibition in dry porous media affect the ultimate water distribution pattern. In this study, we investigate the impact of pressure pulses that emit waves in the water phase on the water distribution and imbibition patterns in porous media. We present experimental results of water spatial distribution in sand columns following infiltration under abrupt pressured‐water pulses and compare them with those of continuous inflow. Applying pressure waves during infiltration increases pressure gradients behind the wetting front, which can overcome capillary and gravitational forces, leading to uniform imbibition. To simulate the process, we developed a pore‐network model incorporating an analytical solution of pressure wave attenuation to predict the imbibition pattern. Our results demonstrate that the amplitude of the pressure wave is associated with a sharp wetting front, resulting in higher water content compared to Darcy‐type continuous flow. The findings suggest that pressure waves have the potential to achieve high water content in unsaturated media and provide insights into the spatial extent of their impact on water distribution.
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来源期刊
Water Resources Research
Water Resources Research 环境科学-湖沼学
CiteScore
8.80
自引率
13.00%
发文量
599
审稿时长
3.5 months
期刊介绍: Water Resources Research (WRR) is an interdisciplinary journal that focuses on hydrology and water resources. It publishes original research in the natural and social sciences of water. It emphasizes the role of water in the Earth system, including physical, chemical, biological, and ecological processes in water resources research and management, including social, policy, and public health implications. It encompasses observational, experimental, theoretical, analytical, numerical, and data-driven approaches that advance the science of water and its management. Submissions are evaluated for their novelty, accuracy, significance, and broader implications of the findings.
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