中国科学引文数据库(CSCD)来源期刊
中国科技核心期刊
环境科学领域高质量科技期刊分级目录T2级期刊
RCCSE中国核心学术期刊
美国化学文摘社(CAS)数据库 收录期刊
日本JST China 收录期刊
世界期刊影响力指数(WJCI)报告 收录期刊

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

场地重金属复合污染阻隔技术研究进展

王劲楠 吴玉锋 李良忠 虞璐 杨梦传 李彬 郭连杰

王劲楠, 吴玉锋, 李良忠, 虞璐, 杨梦传, 李彬, 郭连杰. 场地重金属复合污染阻隔技术研究进展[J]. 环境工程, 2022, 40(4): 244-253. doi: 10.13205/j.hjgc.202204034
引用本文: 王劲楠, 吴玉锋, 李良忠, 虞璐, 杨梦传, 李彬, 郭连杰. 场地重金属复合污染阻隔技术研究进展[J]. 环境工程, 2022, 40(4): 244-253. doi: 10.13205/j.hjgc.202204034
WANG Jinnan, WU Yufeng, LI Liangzhong, YU Lu, YANG Mengchuan, LI Bin, GUO Lianjie. RESEARCH PROGRESS OF BARRIER TECHNOLOGIES FOR SITE COMBINED HEAVY METAL POLLUTION[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(4): 244-253. doi: 10.13205/j.hjgc.202204034
Citation: WANG Jinnan, WU Yufeng, LI Liangzhong, YU Lu, YANG Mengchuan, LI Bin, GUO Lianjie. RESEARCH PROGRESS OF BARRIER TECHNOLOGIES FOR SITE COMBINED HEAVY METAL POLLUTION[J]. ENVIRONMENTAL ENGINEERING , 2022, 40(4): 244-253. doi: 10.13205/j.hjgc.202204034

场地重金属复合污染阻隔技术研究进展

doi: 10.13205/j.hjgc.202204034
基金项目: 

国家自然科学基金项目(42007126)

国家重点研发计划项目(2019YFC1803702)

详细信息
    作者简介:

    王劲楠(1996-),女,硕士研究生,主要研究方向为场地污染阻隔。wjn2158@163.com

    通讯作者:

    虞璐(1990-),女,助理研究员,主要研究方向为环境修复与污染防控。yulu112266@163.com

RESEARCH PROGRESS OF BARRIER TECHNOLOGIES FOR SITE COMBINED HEAVY METAL POLLUTION

  • 摘要: 近年来,我国遗留场地重金属复合污染问题日益突出。为有效阻断重金属迁移扩散,阻隔技术成为国内外场地污染控制研究的焦点。通过系统分析阻隔技术在典型重金属污染场地的应用实例,概述阻隔技术先进材料和相关实施现状,发掘不同阻隔技术应用过程中的主要问题,提出了阻隔技术组合式应用和阻隔系统工程决策等研究方向,从技术、经济、土地再利用等多维度综合考量,为复杂情景下的场地重金属污染治理提供理论依据和技术参考。
  • [1] LI Z Y, MA Z W, KUIJP T J, et al. A review of soil heavy metal pollution from mines in China:pollution and health risk assessment[J]. Science of the Total Environment, 2014, 468:843-853.
    [2] HE Z, SHEN T J, YANG X, et al. Heavy metal contamination of soils:sources, indicators and assessment[J]. Journal of Environmental Indicators, 2015,9:17-18.
    [3] SINGH O V, LABANA S, PANDEY G, et al. Phytoremediation:an overview of metallic ion decontamination from soil[J]. Applied Microbiology and Biotechnology, 2003, 61(5):405-412.
    [4] MISHRA S, BHARAGAVA R N, YADAV A, et al. Heavy metal contamination:an alarming threat to environment and human health[M]. Singapore:Springer, 2019:103-125.
    [5] 环境保护部.环境保护部和国土资源部发布全国土壤污染状况调查公报[EB/OL]. http://www.mee.gov.cn/gkml/sthjbgw/qt/201404/t20140417_270670.htm. 2014-04-17.
    [6] 谢云峰,曹云者,张大定,等.污染场地环境风险的工程控制技术及其应用[J].环境工程技术学报, 2012, 2(1):51-59.
    [7] 陈素云,王峰,王文峰,等.污染场地工程控制技术应用研究[J].环境工程, 2014, 32(5):146-149

    ,137.
    [8] 环境保护部办公厅.关于征求《污染地块风险管控技术指南——阻隔技术(试行)(征求意见稿)》等3个技术文件意见的函[EB/OL]. http://www.mee.gov.cn/gkml/hbb/bgth/201711/t20171129_427107.

    htm. 2017-11-22.
    [9] 吴亮亮,王琼,周连碧.污染场地阻隔技术应用现状概述[C]//中国环境科学学会科学与技术年会论文集(第二卷).福建厦门:中国环境科学学会, 2017:2028-2032.
    [10] HE K, LAI X P. Application Status of Vertical Barrier Technology in Site Contamination Remediation[J]. IOP Conference Series Earth and Environmental Science, 2019, 242(5):052029.
    [11] 环境保护部.关于发布2014年污染场地修复技术目录(第一批)的公告[EB/OL]. http://www.mee.gov.cn/gkml/hbb/bgg/201411/t20141105_291150.

    htm. 2014-11-02.
    [12] PARK H, OH M, KWON O. Analysis on contaminant transport according to the embedded depth of vertical barrier of offshore landfill[J]. Journal of the Korean Geo-Environmental Society, 2016, 17(8):29-37.
    [13] SWORDS C, STRANGE J. Active containment system for a former industrial site in East London[J]. Engineering Geology, 2006, 85(1/2):204-211.
    [14] MICHELE A, VINCENZO A, FERDINANDO M, et al. Effectiveness of a physical barrier for contaminant control in an unconfined coastal plain aquifer:the case study of the former industrial site of Bagnoli (Naples, southern Italy)[J]. Environmental Monitoring and Assessment, 2015, 187(12):761.
    [15] REBELLO N, HARIKIRAN R, AKARSH, et al. Experimental Studies on Geo-Synthetic Vertical Barrier Around the Dumpyard[M]. 2021.
    [16] KODA E, WIENCLAW E, MARTELLI L. Transport modelling and monitoring research use for efficiency assessment of vertical barrier surrounding old sanitary landfill[J]. Annals of Warsaw University of Life Sciences-SGGW. Land Reclamation, 2009, 41(1):41-48.
    [17] MADARASZ T. Risk-based evaluation of the surface cover technology of a red sludge waste disposal site in hungary[M]. Dordrecht:Springer Netherlands, 2004, 113-123.
    [18] POWER C, RAMASAMY M, MACASKILL D, et al. Five-year performance monitoring of a high-density polyethylene (HDPE) cover system at a reclaimed mine waste rock pile in the Sydney Coalfield (Nova Scotia, Canada)[J]. Environmental Science and Pollution Research, 2017, 24(34):26744-26762.
    [19] 中关村中环地下水污染防控与修复产业联盟.中关村中环地下水污染防控与修复产业联盟关于征求《地下水污染阻断技术指南》意见的函[EB/OL]. http://www.ttbz.org.cn/Home/Show/18656/. 2020-10-29.
    [20] 钱学德,朱伟,徐浩青,等.填埋场和污染场地防污屏障设计与施工[M].北京:科学出版社, 2017.
    [21] CHEN X W, WONG J T F, CHARLES W W N, et al. Feasibility of biochar application on a landfill final cover-a review on balancing ecology and shallow slope stability[J]. Environmental Science and Pollution Research, 2016, 23(8):7111-7125.
    [22] KUMPIENE J, DESOGUS P, SCHULENBURG S, et al. Utilisation of chemically stabilized arsenic-contaminated soil in a landfill cover[J]. Environmental Science and Pollution Research, 2013, 20(12):8649-8662.
    [23] 陆英,肖满,万鹏,等.广东某工业场地重金属污染土壤稳定化修复工程案例[J].环境生态学, 2019, 1(6):50-56.
    [24] NATHALIE T F, XIE H J, STOLTZ G. Performance issues of barrier systems for landfills:a review[J]. Geotextiles and Geomembranes, 2021, 49(2):475-488.
    [25] 朱湖地,王冬冬,李来顺,等.四川某铬污染场地固化、稳定化修复案例:以四川某铬污染场地为例[J].资源节约与环保, 2020(4):97-99,112.
    [26] XI B D, LI J, WANG Y, et al. Application cases[M]. Singapore:Springer, 2021, 93-388.
    [27] 周真佳,金平良,柯勤飞,等.环境土壤修复用土工合成材料的研究及应用[J].纺织导报, 2019(增刊1):44-48.
    [28] NAKA A, FLORES G, INUI T, et al. Hydraulic performance and chemical compatibility of a powdered Na-bentonite geosynthetic clay liner permeated with mine drainage[J]. Soils and Foundations, 2019, 59(5):1128-1147.
    [29] 谢海建,陈云敏,楼章华.污染物通过有缺陷膜复合衬垫的一维运移解析解[J].中国科学(技术科学), 2010, 40(5):486-495.
    [30] FOOSE G J. Transit-time design for diffusion through composite liners[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2002, 128(7):590-601.
    [31] ZHAO S L, SHEN Z P, DUO L. Heavy metal uptake and leaching from polluted soil using permeable barrier in DTPA-assisted phytoextraction[J]. Environmental Science and Pollution Research, 2015, 22(7):5263-5270.
    [32] KHALID S, SHAHID M, NIAZI N K, et al. A comparison of technologies for remediation of heavy metal contaminated soils[J]. Journal of Geochemical Exploration, 2017, 182:247-268.
    [33] MOHAMMAD K U. A review on the adsorption of heavy metals by clay minerals, with special focus on the past decade[J]. Chemical Engineering Journal, 2017, 308:438-462.
    [34] ZHANG W J, QIU Q W. Analysis on contaminant migration through vertical barrier walls in a landfill in China[J]. Environmental Earth Sciences, 2010, 61(4):847-852.
    [35] 龚亚龙,李红艳,李喜青,等.郴州市王仙岭尾砂库重金属污染治理工程实例[J].环境工程, 2016, 34(2):170-174.
    [36] 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.
    [37] OPDYKE S M, EVANS J C. Slag-cement-bentonite slurry walls[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2005, 131(6):673-681.
    [38] KUMARARAJA P, MANJAIAH K M, DATTA S C, et al. Potential of bentonite clay for heavy metal immobilization in soil[J]. Clay Research, 2014, 33(2):83-96.
    [39] NIU M D, LI G X, CAO L, et al. Preparation of sulphate aluminate cement amended bentonite and its use in heavy metal adsorption[J]. Journal of Cleaner Production, 2020, 256:120700.
    [40] KATSIOTI M, KATSIOTIS N, ROUNI G, et al. The effect of bentonite/cement mortar for the stabilization/solidification of sewage sludge containing heavy metals[J]. Cement and Concrete Composites, 2008, 30(10):1013-1019.
    [41] JEYAPRIYA S P, SHAZLI L. Remediation of heavy metal contaminated soil using different techniques[J]. The Indian Ecological Society, 2017, 44(4):765-773.
    [42] HE Y, LI B B, ZHANG K N, et al. Experimental and numerical study on heavy metal contaminant migration and retention behavior of engineered barrier in tailings pond[J]. Environmental Pollution, 2019, 252(Part B):1010-1018.
    [43] ZHANG W B, RAO W B, LI L, et al. Adsorption of cadmium onto sand-attapulgite cutoff wall backfill media[J]. Water, Air,&Soil Pollution, 2021, 232(2):47.
    [44] LIAO B, LI Y Y, GUAN Y, et al. Insight into barrier mechanism of fly ash-bentonite blocking wall for lead pollution in groundwater[J]. Journal of Hydrology, 2020, 590:125444.
    [45] LIU G, WU L S, YE C W, et al. Study on controlling of cadmium pollution with fly ash-bentonite blocking wall[J]. Chemosphere, 2019, 228:656-667.
    [46] WANG Y Z, CHEN Y M, XIE H J, et al. Lead adsorption and transport in loess-amended soil-bentonite cut-off wall[J]. Engineering Geology, 2016, 215:69-80.
    [47] 韩磊,陈建生,陈亮.帷幕灌浆扩散半径及数值模拟的研究[J].岩土力学, 2012, 33(7):2235-2240.
    [48] PEARLMAN L. Subsurface containment and monitoring systems:barriers and beyond[R]. National Network of Environmental Management Studies Fellow for US Environmental Protection Agency, 1999:1-61.
    [49] DIVYA P V, VISWANADHAM B V S, GOURC J P. Influence of geomembrane on the deformation behaviour of clay-based landfill covers[J]. Geotextiles and Geomembranes, 2012, 34:158-171.
    [50] JDIDIA M B, BOUARADA Z, HAMMAMI L. Formulation of bentonite-cement grout for sealing walls[C]//International Conference Design and Modeling of Mechanical Systems, Djerba, Tunisia, 2017:1245-1254.
    [51] DAI G, SHI W C, JIANG X S, et al. Study on the antiseepage mechanism of the PBFC slurry for landfill site[J]. International Journal of Modern Physics B, 2017:1744087.
    [52] 刘磊. U型组合钢板桩抗弯性能试验研究[D].广州:华南理工大学, 2019.
    [53] ABDULWAHHAB W, NIMR A E E, WAHAB K S A, et al. Soil protection from lead contaminant using sheet pile or isolation methods (Dept. EEMT)[J]. Bulletin of the Faculty of Engineering, Mansoura University, 2020, 40(3):1-7.
    [54] HUANG X, ZHUANG R, MUHAMMAD F, et al. Solidification/stabilization of chromite ore processing residue using alkali-activated composite cementitious materials[J]. Chemosphere, 2017,168:300-308.
    [55] 甄胜利,霍成立,贺真,等.垂直阻隔技术的应用与对比研究[J].环境卫生工程, 2017, 25(1):51-56.
    [56] MORSY M S, ROWE R K, ABDELAAL F B. Longevity of twelve geomembranes in chlorinated water[J]. Canadian Geotechnical Journal, 2020, 58(4):479-495.
    [57] ROWE R K, ABDELAAL F B, ZAFATI M, et al. An approach to high-density polyethylene (HDPE) geomembrane selection for challenging design requirements[J]. Canadian Geotechnical Journal, 2019, 57(10):1550-1565.
    [58] SAKUMA S, SHIMADA H, SASAOKA T. Case study of cutter soil mixing (CSM) method on hard soil conditions[C]//International Symposium-10th Asian Rock Mechanics Symposium, Singapore, 2018.
    [59] PATTON P, DAY S, BYLE M. Compatibility evaluation of groundwater cutoff wall using salt-resistant bentonite and BFS/cement for deep-mix barrier wall[J]. Soil Improvement, 2007:1-11.
    [60] 唐昊陵.双轮铣水泥土搅拌墙工程特性研究与应用[D].南京:东南大学, 2017.
    [61] HG/T 20715-2020工业污染场地竖向阻隔技术规范[S].北京:中国石化出版社, 2020.
    [62] 张宁,岳清瑞,姚正治,等.垂直铺膜技术在垃圾处理场的应用[J].环境工程, 2004,22(2):72-75.
    [63] 郑中华,朱天戈,罗彬,等.垂直生态屏障系统在矿山地下水污染防治中的应用[C]//2014中国环境科学学会学术年会,成都, 2014.
    [64] 中国城市建设研究院.安徽省淮南市采煤塌陷区综合治理项目垃圾封场工程[EB/OL]. https://www.cucd.cn/article/155.html. 2020-12-12.
    [65] 湖北省生态环境厅.源头阻断因地制宜分类施策湖北黄石"治土"找到良方[EB/OL]. http://sthjt.hubei.gov.cn/dtyw/hjxw/201908/t20190801_556269.shtml. 2019-08-01.
    [66] 娄振东,段红英.贵州万山汞矿废渣特征及治理方法探讨[J].环境与发展, 2020, 32(11):33-35.
    [67] LI W, LV Z Y, LI S C, et al. Application and case study of barrier technology in soil and groundwater remediation[M]. Singapore:Springer, 2018:799-808.
    [68] 孙红松.湖南某冶炼企业遗留场地综合治理工程实例及总结[J].工程技术研究, 2020, 5(7):1-3

    ,23.
    [69] 朱水元,单华伦,孙雨清.七子山垃圾填埋场垂直防渗系统对环境污染的阻滞作用研究[J].环境工程, 2009, 27(增刊1):341-345.
    [70] 王金益.封场后垃圾填埋场及周边土地的生态修复与景观再生研究:以上海老港郊野公园为例[D].北京:北京林业大学, 2019.
    [71] 中华人民共和国生态环境部.以宝山吴淞、浦东高桥、普陀桃浦三大板块转型为突破口上海滩上的绿色转身[EB/OL]. http://www.mee.gov.cn/ywdt/hjnews/201305/t20130503_251582.shtml. 2013-05-03.
    [72] 刘晓文,温勇,蔡信德,等.电子废弃物土壤污染整治分析:以广东省清远市为例[J].环境保护, 2018, 46(1):61-64.
    [73] 马志强,肖满,明中远.土-膨润土垂直防渗墙在某危废填埋场应急阻隔中的应用[J].环境生态学, 2019, 1(1):19-23.
    [74] 郑颖,赵亮,郝砚华,等.膜阻隔技术在土壤污染风险管控中应用的可行性研究[J].环境生态学, 2021, 3(3):60-64.
    [75] 孙晓东,周嘉宾,郑峰,等.柔性垂直阻隔技术在危废污染应急治理项目中的应用[J].探矿工程(岩土钻掘工程), 2016, 43(10):126-130.
  • 加载中
计量
  • 文章访问数:  349
  • HTML全文浏览量:  48
  • PDF下载量:  12
  • 被引次数: 0
出版历程
  • 收稿日期:  2021-10-15
  • 网络出版日期:  2022-07-06

目录

    /

    返回文章
    返回