| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Experimental Study on Hydraulic Conductivity of Clay-Bentonite Mixed Soil Liner |
| LIN Hai1,2,*, SHI Huabao1, ZHOU Chuangbing1,2, LYU Zhitao1
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1 School of Infrastructure Engineering, Nanchang University, Nanchang 330031, China
2 Watershed Carbon Neutrality Engineering Research Center of the Ministry of Education, Nanchang University, Nanchang 330031, China |
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Abstract Impervious liner barrier is a crucial part in pollution prevention and control. Adding bentonite into clay to form a mixed soil liner can integrate the advantages of economy and impermeable effect, but the promotion of this kind of mixed soil liner in engineering application needs to farther systematic understanding of its hydraulic conductivity characteristics. Here, to the mixed soil liner sample with general clay and sodium bentonite, permeability tests are carried out using the large-size flexible wall permeameter under different initial degree of compaction, bentonite mixing ratios and confining pressures, and the hydraulic conductivity characteristics of the clay-bentonite mixed soil liner are comparatively analyzed under various conditions. The test results indicate that the hydraulic conductivity of the mixed soil liner with 5% sodium bentonite is significantly lower than that of the compacted clay liner, and the effect of initial degree of compaction and confining pressure on the hydraulic conductivity of mixed soil liner is significantly less than that of compacted clay liner. To ensure the similar anti-seepage effect, the clay-bentonite mixed soil liner have lower construction requirement for initial compactness than the conventional clay liner. The confining pressure of about 50 kPa can make the mixed soil liner easily meet the existing engineering impermeable regulations.
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Published: 10 December 2024
Online: 2024-12-10
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| Fund:National Natural Science Foundation of China (42060218,41702324) and Natural Science Foundation of Jiangxi Province (20242BAB23048, 20224BAB203039) |
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1 Liu S Y, Zhan L T, Hu L M, et al. China Civil Engineering Journal, 2016, 49(3), 6 (in Chinese).
刘松玉, 詹良通, 胡黎明, 等. 土木工程学报, 2016, 49(3), 6.
2 Wan Y, Xue Q, Zhao L Y, et al. Rock and Soil Mechanics, 2015, 36(3), 679 (in Chinese).
万勇, 薛强, 赵立业, 等. 岩土力学, 2015, 36(3), 679.
3 Han Z W, Lin H, Shi J Y. Chinese Journal of Geotechnical Engineering, 2021, 43(5), 962 (in Chinese).
韩卓韦, 林海, 施建勇. 岩土工程学报, 2021, 43(5), 962
4 Lin H, Zeng Y F, Zhou C B, et al. Rock and Soil Mechanics, 2023, 44(2), 355 (in Chinese).
林海, 曾一帆, 周创兵, 等. 岩土力学, 2023, 44(2), 355.
5 Xie H J, Zhan L T, Chen Y M, et al. China Civil Engineering Journal, 2011, 44(7), 133 (in Chinese).
谢海建, 詹良通, 陈云敏, 等. 土木工程学报, 2011, 44(7), 133.
6 Xiao C Z, Tao Z Q, Zhang J L, et al. Journal of Changjiang River Scientific Research Institute, 2023, 40(1), 132(in Chinese).
肖成志, 陶子琪, 张金利, 等. 长江科学院院报, 2023, 40(1), 132.
7 Peng M, Bi J C, Zhu Y, et al. Journal of Hydraulic Engineering, 2020, 51(11), 1347 (in Chinese).
彭铭, 毕竞超, 朱艳, 等. 水利学报, 2020, 51(11), 1347.
8 Liu Y L, Su Y P, Yin Y, et al. Materials Reports, 2021, 35(5), 5040 (in Chinese).
刘益良, 苏幼坡, 殷尧, 等. 材料导报, 2021, 35(5), 5040.
9 Xu H Q, Zhou A Z, Jiang P M, et al. Rock and Soil Mechanics, 2019, 40(S1), 424 (in Chinese).
徐浩青, 周爱兆, 姜朋明, 等. 岩土力学, 2019, 40(S1), 424.
10 Ma Z Q, Xiao M, Ming Z Y. Environmental Ecology, 2019, 1(1), 19 (in Chinese).
马志强, 肖满, 明中远. 环境生态学, 2019, 1(1), 19.
11 Liu C S, Liu Z D, Wang C D. Chinese Journal of Rock Mechanics and Engineering, 2002(3), 434 (in Chinese).
刘川顺, 刘祖德, 王长德. 岩石力学与工程学报, 2002(3), 434.
12 Mei Y, Tian X Y, Hu C M, et al. Materials Reports, 2020, 34(14), 14087 (in Chinese).
梅源, 田新宇, 胡长明, 等. 材料导报, 2020, 34(14), 14087.
13 Sivapullaiah P V, Sridharan A, Stalin V K. Canadian Geotechnical Journal, 2000, 37(2), 406.
14 Yeo S S, Shackelford C D, Evans J C. Journal of Geotechnical and Geoenvironmental Engineering, 2005, 131(10), 1189.
15 Malusis M A, Barben E J, Evans J C. Journal of Geotechnical and Geoenvironmental Engineering. 2009, 135(5), 664.
16 Fu X L, Du Y J, You X Y, et al. Chinese Journal of Geotechnical Engineering, 2021, 43(4), 706 (in Chinese).
傅贤雷, 杜延军, 尤星源, 等. 岩土工程学报, 2021, 43(4), 706.
17 Gao G R. Modern soil properties. Nanjing, Southeast University Press, China, 1990, pp: 117 (in Chinese).
高国瑞. 近代土质学. 南京, 东南大学出版社, 1990, pp: 117.
18 Yan X Q, Fang Y G, Zhang P. Chinese Journal of Geotechnical Engineering, 2011, 33(8), 1302 (in Chinese).
闫小庆, 房营光, 张平. 岩土工程学报, 2011, 33(8), 1302.
19 Wan Z E, Li S C, Zhao S S, et al. China Civil Engineering Journal, 2022, 55(3), 83 (in Chinese).
万泽恩, 李树忱, 赵世森, 等. 土木工程学报, 2022, 55(3), 83.
20 Chu Y, Liu S Y, Xu L, et al. China Civil Engineering Journal, 2019, 52(z2), 23 (in Chinese).
储亚, 刘松玉, 徐磊, 等. 土木工程学报, 2019, 52(z2), 23.
21 Fan R D, Du Y J, Reddy K R, et al. Applied Clay Science, 2014, 101.
22 Du Y J, Fan R D, Liu S Y, et al. Engineering Geology, 2015(195), 195.
23 Zhang W J, Jia W Q, Zhang G G, et al. Chinese Journal of Geotechnical Engineering, 2013, 35(11), 2076 (in Chinese).
张文杰, 贾文强, 张改革, 等. 岩土工程学报, 2013, 35(11), 2076.
24 Chen Y G, Lei H N, He Y, et al. Journal of Central South University (Science and Technology), 2018, 49(4), 910 (in Chinese).
陈永贵, 雷宏楠, 贺勇等. 中南大学学报(自然科学版), 2018, 49(4), 910.
25 Li C F. Permeability and evaluation of impervious material of stone chips mixed with bentonite. Master's Thesis, ZheJiang University of technology, China, 2019 (in Chinese).
李翠凤. 石屑掺膨润土防渗材料渗透特性及其评价. 硕士学位论文, 浙江工业大学, 2019.
26 Lin W B, Ning G X, Ma L N, et al. Journal of Yangtze River Scientific Research Institute, 2024, 41(4), 1 (in Chinese).
蔺文博, 宁贵霞, 马丽娜, 等. 长江科学院院报, 2024, 41(4), 1.
27 Yang B, Miao H B, Yang Z, et al. Science Technology and Engineering, 2023, 23(1), 46 (in Chinese).
杨犇, 缪海波, 杨震, 等. 科学技术与工程, 2023, 23(1), 46.
28 Tao G, Li Y, Liu L, et al. Journal of Hydrologic Engineering, 2022(7), 27.
29 Zhang Z, Wang Y, Xu H, et al. Waste Management & Research, 2018, 36(5), 471.
30 Ge S Q, Jiang W H, Zheng L W, et al. Chinese Journal of Rock Mechanics and Engineering, 2022, 41(S2), 3464 (in Chinese).
葛尚奇, 江文豪, 郑凌逶, 等. 岩石力学与工程学报, 2022, 41(S2), 3464.
31 Chen J N. Compatibility of geosynthetic clay liners with leachate from ccp landfills. Ph. D. thesis, Southwest Jiaotong University, China, 2018 (in Chinese).
陈剑楠. 土工合成织物粘土衬垫与燃煤产物渗滤液的化学相容性研究. 博士学位论文, 西南交通大学, 2018.
32 Wang X J, Qi C Z, Zhou L A, et al. Materials Reports, 2022, 36(Z1), 21100220-6 (in Chinese).
王晓娇, 戚承志, 周理安, 等. 材料导报, 2022, 36(Z1), 21100220-6.
33 Shackelford C D, Benson C H, Katsumi T, et al. Geotextiles and Geomembranes, 2000.
34 Wang B, Chen B, Dou T T, et al. China Environmental Science, 2020, 40(2), 701 (in Chinese).
王宝, 陈彬, 窦桐桐, 等. 中国环境科学, 2020, 40(2), 701.
35 Wang B, Dong X L. Rock and Soil Mechanics, 2017, 38(5) (in Chinese).
王宝, 董兴玲. 岩土力学, 2017, 38(5).
36 Chen J N. Benson C. H. , Edil T. B. Journal of Geotechnical and Geoenvironmental Engineering, 2018, 144(3), 04018008.
37 Benson C H, Chen J N, Edil T B, et al. Journal of Geotechnical and Geoenvironmental Engineering, 2018, 144(4).
38 Zhu X R, Xie X Y, Wang Z H, et al. China Civil Engineering Journal, 2004(10), 52 (in Chinese).
朱向荣, 谢新宇, 王朝晖, 等. 土木工程学报, 2004(10), 52. |
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