Journal ArticleDOI
ELECTRO-OSMOTIC CHEMICAL TREATMENTS: EFFECTS OF Ca2+ CONCENTRATION ON THE MECHANICAL STRENGTH AND pH OF KAOLIN
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TLDR
In this paper, a series of tests were carried out by injecting different concentrations of calcium chloride solution into a kaolin suspension, for different treatment times, during electro-osmosis.Abstract:
Electro-osmotic chemical treatment is an innovative method to improve the strength of soft clays for geotechnical engineering purposes; the effectiveness of the treatment may be related to treatment time, the concentration of the solutions injected, and to variation of pH in the clay. The objective of this study was to investigate the relationship between the above-mentioned factors and the improvement in strength when calcium chloride solution was used as an injection material. A series of tests was carried out by injecting different concentrations of calcium chloride solution into a kaolin suspension, for different treatment times, during electro-osmosis. After the tests, the pH, cone resistance, water content, and concentration of Ca 2+ in the kaolin at different locations were measured and analyzed. The results show that the concentration of Ca 2+ in the kaolin, the pH, and the strength were increased near the cathode with increases in concentration of CaCl 2 and treatment time. An insignificant increase in strength, due to ion exchange over the entire specimen, for short treatment times of 2 to 24 h, was observed because of a small increase in concentration of Ca 2+ and in pH. During long-term treatment (120 h), a considerable increase in concentration of Ca 2+ (137.0 mg/g) and pH (pH = 10) was observed near the cathode. This led to a pozzolanic reaction, which in turn caused a significant increase in the mechanical strength of the kaolin.read more
Citations
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Electro-osmosis treatment techniques and their effect on dewatering of soils, sediments, and sludge: A review
TL;DR: In this paper, the authors discuss the main reasons for the increase in SSS resistance during treatment and then analyze the most recent and widely spread modifications to classical electro-osmotic treatment that attempt to combat these issues and improve the efficiency of the technique.
Journal ArticleDOI
Mechanism of electro-osmotic chemical for clay improvement: Process analysis and clay property evolution
TL;DR: In this article, the current, temperature, settlement, drainage volume, and electrical potential distribution during electro-osmotic experiments were monitored as process data, and the electrical conductivity in clay, calcium content, pH, water content, and undrained shear strength after the electro-OSmotic chemical experiments were measured as clay property evolution data.
Journal ArticleDOI
Development of a Suitable Operation Procedure for Electroosmotic Chemical Soil Improvement
TL;DR: In this paper, a series of electroosmotic chemical tests were performed to study the mechanism of improvement and the rational time for the injection of calcium chloride solution could be obtained by selecting the time between the first and second turning points on the relational curve of total drained water volume and injection time.
Journal ArticleDOI
Mechanism of soil cementation by electroosmotic chemical treatment
TL;DR: In this article, the authors investigated the mechanism responsible for the improvement of soft clay strength using a kaolinite and showed that the injection of calcium chloride solution through the anode during electroosmosis has been shown to be effective in strengthening soft clay.
Journal ArticleDOI
Soil improvement using electroosmosis with the injection of chemical solutions: laboratory tests
TL;DR: In this article, the electroosmotic improvement of silty clay using calcium chloride and sodium silicate solutions as injection materials was studied, and very stiff cemented soil, approximately 5-6 cm in diameter, surrounding the anode was formed due to cementation reactions between the two injection materials and soil particles under the electric field.
References
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Principles of electrokinetic remediation
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Electrokinetic Remediation. II: Theoretical Model
TL;DR: In this article, a mathematical model for multicomponent species transport under coupled hydraulic, electric, and chemical potential differences is presented, where mass balance of species and pore fluid together with charge balance across the medium result in a set of differential equations.
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Fundamental aspects of electro-osmosis in soils
Donald H. Gray,James K. Mitchell +1 more
TL;DR: A thermodynamic analysis supported by experimental measurements showed that electro-osmosis depends fundamentally on the exchange capacity of a soil, water content, and electrolyte concentration of the pore fluid as discussed by the authors.
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Electroosmotic Phenomena in Porous Media
TL;DR: In this article, a general theory of electroosmotic phenomena in model porous media possessing spatially periodic structure is developed and a numerical code has been built, with an overall precision better than a few percent, when the double layer thickness is larger than the elementary grid size.
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A case record of electroosmotic consolidation of soft clay with improved soil-electrode contact
TL;DR: In this paper, the analysis of published data from case records indicates thatElectroosmotic consolidation of clays has been known in geotechnical engineering for many decades but is in fact seldom used.