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Hydraulic Conductivity of Nonprehydrated Geosynthetic Clay Liners Permeated with Inorganic Solutions and Waste Leachates
Affiliation:1. Graduate School of Global Environmental Studies, Kyoto University, Japan;2. Department of Civil Engineering, Ritsumeikan University, Japan;3. Department of Civil Engineering, Ritsumeikan University, Japan (Currently Okumura Co. Ltd., Abeno, Osaka 545-8555, Japan).;4. Department of Civil Engineering, Ritsumeikan University, Japan (Currently NIPPO Co. Ltd., Chuo-ku, Tokyo 104-8380, Japan).;5. Department of Civil Engineering, Ritsumeikan University, Japan (Currently Wesco Co. Ltd., Okayama, Okayama 700-0033, Japan).;6. Department of Civil Engineering, Ritsumeikan University, Japan
Abstract:To investigate systematically the effects of electrolytic solutions on the barrier performance of geosynthetic clay liners (GCLs), a long-term hydraulic conductivity test for 3 years at longest was conducted on a nonprehydrated GCL permeated with inorganic chemical solutions. The hydraulic conductivity test for waste leachates was also conducted. The results of the test show that the hydraulic conductivity of GCLs significantly correlates with the swelling capacity of bentonite contained in GCLs. GCLs have excellent barrier performance of k<1.0×10-8 cm/s when the free swell is larger than 15 mL/2 g-solid regardless of the type and concentration of the permeant solution. In addition, when the results of the hydraulic conductivity test with chemical inorganic solutions were compared to those with waste leachates, the hydraulic conductivity of GCL permeated with chemical solution was almost the same within the electric conductivity of 0-25 S/m as that permeated with waste leachate having similar electric conductivity. The hydraulic conductivity of GCLs to be used in landfill bottom liners can be estimated by the hydraulic conductivity values obtained from the experiment using chemical solutions having the similar electric conductivity values, if the chemical solution had the electric conductivity within=25 S/m.
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