On the accuracy of saturation estimation from electrical measurements of soils with high swelling clay content

IF 2.5 3区地球科学 Q3 ENVIRONMENTAL SCIENCES

Vadose Zone Journal Pub Date : 2024-04-29 DOI:10.1002/vzj2.20340

Sina Saneiyan, Daniel Gimenez, Ethan Siegenthaler, Lee Slater

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引用次数: 0

Abstract

Electrical conductivity models have been widely used to estimate water content and petrophysical properties of soils in hydrogeophysical studies. However, these models are typically only valid for soils with non‐expandable matrices because they were originally developed for clean sandstone reservoir rocks. Soils containing swelling clays are characterized by matrices that expand/contract upon gaining/losing water. In this laboratory study, we demonstrate that soil matrix changes affect saturation estimation using Archie's laws. A sample of a soil containing a swelling clay was fully saturated with a potassium chloride solution, then left to dry evaporatively at room temperature for 8 days. The complex resistivity of the soil, along with its weight and volume shrinkage, were measured daily during the drying period, and the surface conductivity was calculated based on previous empirical findings. Over the course of the study, the simultaneous evaporation yielded a 33% decrease in volume and caused a nonlinear reduction in saturation with decreasing water content. Accounting for surface conductivity and correcting for saturation using the calculated volume reduction resulted in a power‐law relationship with high R2 values between resistivity and saturation along with reasonable saturation exponents. On the contrary, neglecting either surface conductivity or shrinkage caused similar underestimations of saturation exponents. These results indicate that the application of Archie's second law to soils with swelling clays leads to erroneous predictions of resistivity if saturation values are not corrected for changes in the volume of the soil and surface conductivity is neglected.

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通过电学测量估算高膨胀粘土含量土壤饱和度的准确性

在水文地质物理研究中，电导率模型被广泛用于估算土壤的含水量和岩石物理特性。然而，这些模型通常只适用于基质不可膨胀的土壤，因为它们最初是针对干净的砂岩储层岩石开发的。含有膨胀性粘土的土壤，其基质在增水/失水时会膨胀/收缩。在这项实验室研究中，我们利用阿奇定律证明了土壤基质的变化会影响饱和度的估算。将含有膨胀粘土的土壤样本用氯化钾溶液完全饱和，然后在室温下蒸发干燥 8 天。在干燥期间，每天测量土壤的复合电阻率及其重量和体积收缩率，并根据以前的经验结果计算表面电导率。在研究过程中，同时进行的蒸发导致体积减少了 33%，并导致饱和度随着含水量的减少而非线性降低。考虑到表面电导率，并利用计算得出的体积减少量对饱和度进行校正后，电阻率与饱和度之间形成了高 R2 值的幂律关系，同时饱和度指数也很合理。相反，忽略表面电导率或收缩率会导致饱和指数被低估。这些结果表明，如果不根据土壤体积的变化对饱和值进行校正，并且忽略表面传导性，那么将阿基第二定律应用于膨胀粘土土壤会导致对电阻率的错误预测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Vadose Zone Journal 环境科学-环境科学

CiteScore

5.60

自引率

7.10%

发文量

审稿时长

3.8 months

期刊介绍： Vadose Zone Journal is a unique publication outlet for interdisciplinary research and assessment of the vadose zone, the portion of the Critical Zone that comprises the Earth’s critical living surface down to groundwater. It is a peer-reviewed, international journal publishing reviews, original research, and special sections across a wide range of disciplines. Vadose Zone Journal reports fundamental and applied research from disciplinary and multidisciplinary investigations, including assessment and policy analyses, of the mostly unsaturated zone between the soil surface and the groundwater table. The goal is to disseminate information to facilitate science-based decision-making and sustainable management of the vadose zone. Examples of topic areas suitable for VZJ are variably saturated fluid flow, heat and solute transport in granular and fractured media, flow processes in the capillary fringe at or near the water table, water table management, regional and global climate change impacts on the vadose zone, carbon sequestration, design and performance of waste disposal facilities, long-term stewardship of contaminated sites in the vadose zone, biogeochemical transformation processes, microbial processes in shallow and deep formations, bioremediation, and the fate and transport of radionuclides, inorganic and organic chemicals, colloids, viruses, and microorganisms. Articles in VZJ also address yet-to-be-resolved issues, such as how to quantify heterogeneity of subsurface processes and properties, and how to couple physical, chemical, and biological processes across a range of spatial scales from the molecular to the global.