Affiliation:
1. College of Intelligent Manufacture, Taizhou University, Taizhou 317000, China
2. Department of Astronautics and Mechanics, Harbin Institute of Technology, Harbin 150001, China
Abstract
Electroosmotic experiments obtain the electroosmotic pressure coefficient of a rock sample by measuring the excitation voltage at both ends of the sample and the pressure difference caused by the excitation voltage. The electroosmotic pressure is very weak and buried in the background noise, which is the most difficult signal to measure in the dynamic-electric coupling experiment, so it is necessary to improve its signal-to-noise ratio. In this paper, for the low signal-to-noise ratio of electroosmotic pressure, the dual pressure sensor method is proposed, i.e., two pressure sensors of the same type are used to measure electroosmotic pressure. Two different data extraction methods, Fast Fourier Transform and Locked Amplification, are utilized to compare the dual pressure sensor method of this paper with the existing single pressure sensor method. The relationship between the electroosmotic pressure coefficient and the excitation frequency, mineralization, permeability, and porosity is analyzed and discussed.
Funder
National Natural Science Foundations of China
Reference20 articles.
1. A Review on electrokinetically induced seismo-electrics, electro-seismics, and seismo-magnetics for earth sciences;Jouniaux;Solid Earth,2016
2. Effect of electrokinetic treatment time on energy consumption and salt ions removal from clayey soils;Hussain;Mater. Res. Express,2023
3. Electrokinetic remediation for the removal of heavy metals in soil: Limitations, solutions and prospection;Sun;Sci. Total Environ.,2023
4. Geophysical applications of electrokinetic conversion;Thompson;Lead. Edge,1993
5. Touchard, G., Paillat, T., Beaufort, D., and Watanabe, S. (1996, January 22–24). Electroosmosis effect on micro permeability through rock samples. Proceedings of the Twenty-First Workshop on Geothermal Reservoir Engineering, Palo Alto, CA, USA.