2025年4月29日 周二
期刊社主页编辑部首页编委会期刊简介过刊浏览
首页 > 过刊浏览>2023年第45卷第6期 >165-172. DOI:10.11835/j.issn.2096-6717.2021.251
PDF HTML阅读 XML下载 导出引用 引用提醒
羟丙甲纤维素对铜污染土-膨润土屏障工程特性的改良效果
CSTR:
[cstr]
作者:
作者单位:

1.上海交通大学 海洋工程国家重点实验室;上海市公共建筑和基础设施数字化运维重点实验室,上海200240;2.上海胜义环境科技有限公司,上海 200240

作者简介:

葛均健(1997- ),男,主要从事环境岩土工程研究,E-mail:Ge-Junjian@sjtu.edu.cn。
GE Junjian (1997- ), main research interest: environmental geotechnical engineering, E-mail: Ge-Junjian@sjtu.edu.cn.

通讯作者:

陈兵(通信作者),男,教授,博士生导师,E-mail:hntchen@sjtu.edu.cn。

中图分类号:

TU443

基金项目:

国家自然科学基金(51972209)


Improvement effect of hydroxypropyl methylcellulose on engineering characteristics of soil-bentonite barrier polluted by copper
Author:
Affiliation:

1.State Key Laboratory of Ocean Engineering; Shanghai Key Laboratory for Digital Maintenance of Buildings and Infrastructure, Shanghai Jiao Tong University, Shanghai 200240, P. R. China;2.Shanghai Shengyi Environmental Technology Co., Ltd., Shanghai 200240, P. R. China

Fund Project:

National Natural Science Foundation of China (No. 51972209)

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [29]
    • |
  • 相似文献 [20]
    • | | |
  • 文章评论
    摘要:

    土-膨润土屏障作为污染场地隔离保护的重要手段之一,现已在工程中广泛应用。在土-膨润土屏障中加入羟丙甲纤维素(HPMC),能有效弥补因在重金属污染环境中受侵蚀而导致防渗性能衰减的问题。通过自由膨胀试验、扫描电镜试验、渗透试验、一维压缩试验与直剪试验,研究铜离子对膨润土膨胀性能的破坏作用及HPMC的改良作用机理,并研究高铜离子浓度(50 mmol/L)环境下不同掺量的HPMC对屏障材料防渗性能的改良效果及其对力学性能的影响规律。结果表明:HPMC可减小铜污染膨润土的团聚,并保持膨润土的连续结构;随着HPMC掺量的增加,屏障材料受破坏程度变低,防渗性能更好,其渗透系数k <10-10 m/s;材料压缩性变大,但抗剪强度略有降低。

    Abstract:

    Soil-bentonite barrier is one of the most important means to isolate contaminated sites, which has been widely used in engineering practice. Adding hydroxypropyl methylcellulose (HPMC) to the soil-bentonite barrier can effectively make up for the attenuation of its anti-seepage performance in heavy metal environment. A series of experiments including free expansion, scanning electron microscope, permeability, one-dimensional compression and direct shear strength for the destruction of bentonite structure by copper ion, the improvement mechanism of HPMC and the barrier mixing HPMC with different ratios are conducted under high ion concentration (50 mmol/L) environment. The results show that HPMC can reduce the agglomeration of copper contaminated bentonite, keep the continuous structure of bentonite and as HPMC mixing ratio increases, the damage degree of barrier gets lower and the anti-seepage performance becomes better. The mechanical properties of barrier such as the compressibility increases, but shear strength decreases slightly with higher HPMC mixing ratio.

    参考文献
    [1] 陈云敏, 施建勇, 朱伟, 等. 环境岩土工程研究综述[J]. 土木工程学报, 2012, 45(4): 165-182.CHEN Y M, SHI J Y, ZHU W, et al. A review of geoenvironmental engineering [J]. China Civil Engineering Journal, 2012, 45(4): 165-182. (in Chinese)
    [2] 薛强, 詹良通, 胡黎明, 等. 环境岩土工程研究进展[J]. 土木工程学报, 2020, 53(3): 80-94.XUE Q, ZHAN L T, HU L M, et al. Environmental geotechnics: State-of-the-art of theory, testing and application to practice [J]. China Civil Engineering Journal, 2020, 53(3): 80-94. (in Chinese)
    [3] 方江华, 张志红, 姜玉松. 对环境岩土工程几个问题的探讨[J]. 岩土力学, 2005, 26(4): 655-659.FANG J H, ZHANG Z H, JIANG Y S. Discussion on problems in environmental geotechnology [J]. Rock and Soil Mechanics, 2005, 26(4): 655-659. (in Chinese)
    [4] 刘松玉, 詹良通, 胡黎明, 等. 环境岩土工程研究进展[J]. 土木工程学报, 2016, 49(3): 6-30.LIU S Y, ZHAN L T, HU L M, et al. Environmental geotechnics: State-of-the-art of theory, testing and application to practice [J]. China Civil Engineering Journal, 2016, 49(3): 6-30. (in Chinese)
    [5] LI Y C, PAN Q, CHEN Y M. Stability of slurry trenches with inclined ground surface [J]. Journal of Geotechnical and Geoenvironmental Engineering, 2013, 139(9): 1617-1619.
    [6] 梅丹兵, 杜延军, 刘松玉, 等. 土-膨润土系竖向隔离墙材料施工和易性试验研究[J]. 东南大学学报(自然科学版), 2016, 46(2): 400-405.MEI D B, DU Y J, LIU S Y, et al. Experimental study on workability of soil-bentonite backfills for vertical slurry cutoff walls [J]. Journal of Southeast University (Natural Science Edition), 2016, 46(2): 400-405. (in Chinese)
    [7] FAN R D, YANG Y L, LIU S Y. Impact of in situ soil in soil-bentonite cutoff wall backfill on compressibility and hydraulic conductivity [J]. Advances in Civil Engineering, 2021, 2021: 1-12.
    [8] 陈永贵, 叶为民, 王琼, 等. 砂-膨润土混合屏障材料渗透性影响因素研究[J]. 工程地质学报, 2010, 18(3): 357-362.CHEN Y G, YE W M, WANG Q, et al. Influence factors of sand-bentonite mixtures on hydraulic conductivity [J]. Journal of Engineering Geology, 2010, 18(3): 357-362. (in Chinese)
    [9] KATSUMI T, ISHIMORI H, ONIKATA M, et al. Long-term barrier performance of modified bentonite materials against sodium and calcium permeant solutions [J]. Geotextiles and Geomembranes, 2008, 26(1): 14-30.
    [10] 刘志彬, 方伟, 陈志龙, 等. 锌离子污染对膨润土一维压缩特性影响试验研究[J]. 岩土力学, 2013, 34(8): 2211-2217.LIU Z B, FANG W, CHEN Z L, et al. Experimental study of influence of zinc ions on one-dimensional compressibility of bentonite [J]. Rock and Soil Mechanics, 2013, 34(8): 2211-2217. (in Chinese)
    [11] OUHADI V R, YONG R N, SEDIGHI M. Influence of heavy metal contaminants at variable pH regimes on rheological behaviour of bentonite [J]. Applied Clay Science, 2006, 32(3/4): 217-231.
    [12] DI MAIO C. Exposure of bentonite to salt solution: Osmotic and mechanical effects [J]. Géotechnique, 1996, 46(4): 695-707.
    [13] SUZUKI S, PRAYONGPHAN S, ICHIKAWA Y, et al. In situ observations of the swelling of bentonite aggregates in NaCl solution [J]. Applied Clay Science, 2005, 29(2): 89-98.
    [14] MISHRA A K, OHTSUBO M, LI L Y, et al. Effect of salt of various concentrations on liquid limit, and hydraulic conductivity of different soil-bentonite mixtures [J]. Environmental Geology, 2009, 57(5): 1145-1153.
    [15] WU H L, JIN F, ZHOU A N, et al. The engineering properties and reaction mechanism of MgO-activated slag cement-clayey sand-bentonite (MSB) cutoff wall backfills [J]. Construction and Building Materials, 2021, 271: 121890.
    [16] 陈延君, 王红旗, 赵勇胜. 改性膨润土作为防渗层材料的性能研究及影响因素分析[J]. 环境科学研究, 2006, 19(2): 90-94.CHEN Y J, WANG H Q, ZHAO Y S. Study on modified bentonite performance and the analysis of its influencing factors [J]. Research of Environmental Sciences, 2006, 19(2): 90-94. (in Chinese)
    [17] 孙杰, 赵新正, 曾沛. 阳离子聚丙烯酰胺改性膨润土对靛蓝的吸附性能[J]. 环境科学研究, 2013, 26(9): 1001-1006.SUN J, ZHAO X Z, ZENG P. Adsorption properties of cationic polyacrylamide modified bentonite for indigo blue [J]. Research of Environmental Sciences, 2013, 26(9): 1001-1006. (in Chinese)
    [18] FEHERVARI A, GATES W P, PATTI A F, et al. Potential hydraulic barrier performance of cyclic organic carbonate modified bentonite complexes against hyper-salinity [J]. Geotextiles and Geomembranes, 2016, 44(5): 748-760.
    [19] FAN R D, DU Y J, REDDY K R, et al. Compressibility and hydraulic conductivity of clayey soil mixed with calcium bentonite for slurry wall backfill: Initial assessment [J]. Applied Clay Science, 2014, 101: 119-127.
    [20] SRIDHARAN A, RAO S M, MURTHY N S. Compressibility behaviour of homoionized bentonites [J]. Géotechnique, 1986, 36(4): 551-564.
    [21] HONG C S, SHACKELFORD C D, MALUSIS M A. Consolidation and hydraulic conductivity of zeolite-amended soil-bentonite backfills [J]. Journal of Geotechnical and Geoenvironmental Engineering, 2012, 138(1): 15-25.
    [22] DUTTA J, MISHRA A K. Consolidation behaviour of bentonites in the presence of salt solutions [J]. Applied Clay Science, 2016, 120: 61-69.
    [23] FLESSATI L, DELLA VECCHIA G, MUSSO G. Mechanical behavior and constitutive modeling of cement-bentonite mixtures for cutoff walls [J]. Journal of Materials in Civil Engineering, 2021, 33(3): 04020483.
    [24] MALUSIS M A, BARBEN E J, EVANS J C. Hydraulic conductivity and compressibility of soil-bentonite backfill amended with activated carbon [J]. Journal of Geotechnical and Geoenvironmental Engineering, 2009, 135(5): 664-672.
    [25] 范日东, 杜延军, 陈左波, 等. 受铅污染的土-膨润土竖向隔离墙材料的压缩及渗透特性试验研究[J]. 岩土工程学报, 2013, 35(5): 841-848.FAN R D, DU Y J, CHEN Z B, et al. Compressibility and permeability characteristics of lead contaminated soil-bentonite vertical cutoff wall backfills [J]. Chinese Journal of Geotechnical Engineering, 2013, 35(5): 841-848. (in Chinese)
    [26] 刘松玉, 范日东, 杜延军, 等. 盐溶液作用下土的压缩及渗透特性预测方法[J]. 东南大学学报(自然科学版), 2016, 46(Sup1): 14-19.LIU S Y, FAN R D, DU Y J, et al. Prediction of compression and permeability behavior of salt-contaminated soils [J]. Journal of Southeast University (Natural Science Edition), 2016, 46(Sup1): 14-19. (in Chinese)
    [27] 施惠生, 刘艳红. 膨润土对重金属离子Pb2+, Zn2+, Cr(VI), Cd2+的吸附性能[J]. 建筑材料学报, 2006, 9(5): 507-510.SHI H S, LIU Y H. Adsorption characteristics of bentonite to Pb2+, Zn2+, Cr(VI), Cd2+ [J]. Journal of Building Materials, 2006, 9(5): 507-510. (in Chinese)
    [28] 邵涛, 姜春梅. 膨润土对不同价态铬的吸附研究[J]. 环境科学研究, 1999, 12(6): 47-49.SHAO T, JIANG C M. Adsorption study on bentonites to chromium compounds of different valencies [J]. Research of Environmental Sciences, 1999, 12(6): 47-49. (in Chinese)
    [29] 范日东, 刘松玉, 杜延军. 基于改进滤失试验的重金属污染膨润土渗透特性试验研究[J]. 岩土力学, 2019, 40(8): 2989-2996.FAN R D, LIU S Y, DU Y J. Modified fluid loss test for measuring the hydraulic conductivity of heavy metal-contaminated bentonites [J]. Rock and Soil Mechanics, 2019, 40(8): 2989-2996. (in Chinese)
    引证文献
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

葛均健,崔琦,陈兵,刘宁.羟丙甲纤维素对铜污染土-膨润土屏障工程特性的改良效果[J].土木与环境工程学报(中英文),2023,45(6):165-172. GE Junjian, CUI Qi, CHEN Bing, LIU Ning. Improvement effect of hydroxypropyl methylcellulose on engineering characteristics of soil-bentonite barrier polluted by copper[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2023,45(6):165-172.10.11835/j. issn.2096-6717.2021.251

复制
分享
文章指标
  • 点击次数:531
  • 下载次数: 557
  • HTML阅读次数: 83
  • 引用次数: 0
历史
  • 收稿日期:2021-07-14
  • 在线发布日期: 2023-11-13
文章二维码

您是本站第 10306567 访问者

通信地址:重庆市沙坪坝区沙正街174号,重庆大学A区     邮编:400044

电话:023-65111322;023-65111863     E-mail:xuebao@cqu.edu.cn

版权所有:土木与环境工程学报(中英文) ® 2025 版权所有