A fractal model for streaming potential coefficient in porous media |
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Authors: | Luong Duy Thanh Phan Van Do Nguyen Van Nghia Nguyen Xuan Ca |
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Affiliation: | 1. Thuyloi University, Dong Da, Ha Noi, Vietnam;2. Duytan University, Da Nang, Vietnam;3. Faculty of Physics and Technology, Thai Nguyen University of Science, Vietnam |
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Abstract: | Streaming potential is the result of coupling between a fluid flow and an electric current in porous rocks. The modified Helmholtz–Smoluchowski equation derived for capillary tubes is mostly used to determine the streaming potential coefficient of porous media. However, to the best of our knowledge, the fractal geometry theory is not yet applied to analyse the streaming potential in porous media. In this article, a fractal model for the streaming potential coefficient in porous media is developed based on the fractal theory of porous media and on the streaming potential in a capillary. The proposed model is expressed in terms of the zeta potential at the solid?liquid interface, the minimum and maximum pore/capillary radii, the fractal dimension, and the porosity of porous media. The model is also examined by using another capillary size distribution available in published articles. The results obtained from the model using two different capillary size distributions are in good agreement with each other. The model predictions are then compared with experimental data in the literature and those based on the modified Helmholtz–Smoluchowski equation. It is shown that the predictions from the proposed fractal model are in good agreement with experimental data. In addition, the proposed model is able to reproduce the same result as the Helmholtz–Smoluchowski equation, particularly for high fluid conductivity or large grain diameters. Other factors influencing the streaming potential coefficient in porous media are also analysed. |
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Keywords: | Streaming potential Zeta potential Fractal Porous media |
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