Influence of Microstructural Properties on Geophysical Measurements in Sand‐Clay Mixtures

A series of laboratory experiments, including the measurement of electrical properties and permeability, were performed on carefully characterized sand-clay mixtures. Different mixtures and configurations of quartz sand and 0 to 10% Na-montmorillonite clay were investigated using solutions of NaCl, CaCl 2 , and deionized water. Samples containing 10% distributed clay were also studied using fluids containing 20 and 500 ppm trichlorethylene (TCE). Electrical properties were measured at frequencies between 10 6 and 10-2 Hz using the four-electrode method and Ag-AgCl inner electrodes on saturated samples at room temperature and 412 kPa confining pressure, corresponding to a soil depth of 15 to 20 m. Our results show that the addition of TCE has a small effect on electrical resistivity, with resistivity increasing with the addition of TCE. The influence of TCE on the electrical properties was most prominent in plots of loss tangent as a function of frequency. A loss tangent peak occurred at 200 Hz. The height of the peak and the peak frequency both decrease with the addition of TCE. Further experiments were performed on samples containing a distinct clay layer parallel to current flow. Electrical properties were measured on water saturated samples and as a mixture of ethanol and water (80:20) was flowed through the sample. Resistivity increased by about a factor of four as the ethanol mixture replaced the water solution. Non-destructive x-ray imaging of the sample at various stages of dewatering indicates a decrease in the thickness of the clay layer with increasing number of pore volumes of ethanol-water flowed. Our results showed that electrical measurements are a useful tool for characterizing porous rocks and soils and that it is feasible to remotely detect the presence and follow the transport of contaminants such as TCE in the subsurface.

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Influence of Microstructural Properties on Geophysical Measurements in Sand‐Clay Mixtures

Cited by 3 publications

References 8 publications

3. An Introduction to Rock Physics Principles for Near-Surface Geophysics

3. An Introduction to Rock Physics Principles for Near-Surface Geophysics

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