多孔介质界面对重非水相液体迁移过程影响的图像法研究
Investigation on the influence of porous media interface on DNAPL migration based on image methods
-
摘要: 重非水相液体(dense nonaqueous phase liquid,DNAPL)污染土壤和地下水的问题已引起广泛关注,研究其在不同粒径多孔介质及其界面的运移特征形态是确定污染区域、修复治理土壤和地下水环境的前提。文章通过室内试验研究多孔介质界面对DNAPL运移与分布特性的影响。首先在二维砂槽上进行DNAPL污染物的入渗试验,试验过程中用数码相机拍照,将DNAPL扩散过程以图像的形式记录下来;然后用AutoCAD对图片进行处理,绘制出DNAPL迁移过程的锋面变化图。结果表明:DNAPL入渗过程中,迁移主要受到重力作用与毛细作用的控制,毛细作用力随着介质粒径的增大逐层减小,重力作用逐渐起主导作用使污染物入渗速度逐层增大;介质结构影响DNAPL的迁移形态,介质粒径逐层增大,DNAPL污染物的渗流面与指进扩散宽度逐层减小,扩散方式由面状变为指状;在不同粒径介质界面介质结构发生突变时,DNAPL迁移锋面线曲率也相应变大,此时DNAPL的迁移呈现“凸”型特征,另外,不同的界面横向扩散的滞留宽度不同,随着介质粒径的增大,界面的横向扩散宽度相对变短。Abstract: The problem of dense nonaqueous phase liquid(DNAPL) polluting soil and groundwater has attracted extensive attention. The study of the transport characteristics of porous media with different particle sizes and their interfaces is the premise for determining the pollution area and repairing the groundwater environment. The effects of porous media interface on the migration and distribution of heavy non-aqueous liquids (DNAPL) are investigated by laboratory experiments. DNAPL infiltration experiment is conducted in a 2-D sand tank and pictures are taken to record the diffusion process using the digital camera. The image is processed with AutoCAD to draw DNAPL migration and the infiltration frontal variation pictures in different times are obtained. The results show that during the process of DNAPL infiltration, the migration is mainly controlled by gravity and capillary action. The capillary force decreased with the increasing particle size of the media, and the gravity plays a leading role in increasing the infiltration rate of the pollutants. The medium structure affects the migration pattern of DNAPL.The particle size of the medium increases layer by layer,the percolation area and the diffusion width of the DNAPL contaminant decrease layer by layer,the diffusion mode changes from planar to finger.When the interface structure is abrupt, the curvature of the DNAPL migration front line is correspondingly larger.At this time, the migration pattern of DNAPL exhibits a “convex” shape.In addition,different interfaces have different retention widths for lateral diffusion.As the particle size of the medium increases,the lateral diffusion width of the interface becomes relatively short. The results are of important practical significance for the evaluation of DNAPL contamination and the restoration of contaminated sites.
-
Keywords:
- DNAPL /
- porous media interface /
- front curve /
- migration and distribution
-
-
[1] [1]WU M, CHENG Z, WU J, et al. Estimation of representative elementary volume for DNAPL saturation and DNAPL-water interfacial areas in 2D heterogeneous porous media[J]. Journal of Hydrology, 2017, 549: 12-26.
[2] [2]ALAZAIZA M Y D, SU K N, BOB M M, et al. Non-aqueous Phase Liquids Distribution in Three-Fluid Phase Systems in Double-Porosity Soil Media: Experimental Investigation Using Image Analysis[J]. Groundwater for Sustainable Development, 2018,7:133-142.
[3] [3]HALIHAN T, SEFA V, SALE T, et al. Mechanism for detecting NAPL using electrical resistivity imaging[J]. Journal of Contaminant Hydrology, 2017,205:57-69.
[4] [4]HELD R J, ILLANGASEKARE T H. Fingering of dense non aqueous phase liquids in porous media:2. Analysis and classification[J]. Water Resources Research, 1995, 31(5):1223-1231.
[5] [5]CHAMBERS J E,LOKE M H,OGILVY R D,et al.Noninvasive monitoring of DNAPL migration through a saturated porous medium using electrical impedance tomography[J].Journal of Contaminant Hydrology, 2004,68(1):1-22.
[6] [6]KHALIFA NSIR,GERHARD SCHFER,RAPHAL DI CHIARA ROUPERT,et al.Pore scale modelling of DNAPL migration in a water-saturated porous medium[J].Journal of Contaminant Hydrology,2018,215:39-50.
[7] [7]DENG Y,SHI X,XU H,et al. Quantitative assessment of electrical resistivity tomography for monitoring DNAPLs migration-Comparison with high-resolution light transmission visualization in laboratory>sandbox[J]. Journal of Hydrology,2017,544:254-266.
[8] [8]D’ANIELLO A,HARTOG N,SWEIJEN T,et al.Infiltration behaviour of elemental mercury DNAPL in fully and partially water saturated porous media[J].Journal of Contaminant Hydrology,2018,209:14-23.
[9] [9]ERNING K, DAHMKE A, SCHFER D. Simulation of DNAPL infiltration and spreading behaviour in the saturated zone at varying flow velocities and alternating subsurface geometries[J]. Environmental Earth Sciences, 2012, 65 (4): 1119-1131.
[10] [10]郑菲,高燕维,徐红霞,等.非均质性对DNAPL污染源区结构特征影响的实验研究[J].水文地质工程地质,2016, 43(5): 140-148. [ZHENG F, GAO Y W,XU H X, et al. An experimental study of the influence of heterogeneity on the DNAPL source-zone architecture[J]. Hydrogeology & Engineering Geology,2016,43(5): 140-148.(in Chinese)]
[11] [11]郭健,叶淑君,肖安林,等.二维孔隙介质中重非水相液体饱和度测定与分析[J].高校地质学报,2014,20(2):324-332. [GUO J,YE S J,XIAO A L,et al. DNAPL saturation measurements and analysis in 2-D porous media[J]. Geological Journal of China Universities, 2014,20(2): 324-332.(in Chinese)]
[12] [12]乔文静,叶淑君,吴吉春.非均质孔隙介质中两相流的光透法应用研究[J].水文地质工程地质,2015,42(2):112-119. [QIAO W J,YE S J,WU J C,et al.A study of the two-phase flow in heterogeneous porous media with the light transmission method[J].Hydrogeology & Engineering Geology, 2015,42(2):112-119.(in Chinese)]
[13] [13]邓亚平,郑菲,施小清,等.多孔介质中DNAPLs运移行为研究进展[J].南京大学学报(自然科学版),2016,52(3): 409-420. [DENG Y P,ZHENG F,SHI X Q,et al. Review on the transport of dense non-aqueous phase liquids in porous media[J].Journal of Nanjing University(Natural Sciences), 2016, 52(3):409-420.(in Chinese)]
[14] [14]刘汉乐,马腾飞,程亚平.LNAPLs污染物在层状非均质多孔介质中的运移试验研究[J].环境科学与技术,2013,36(1): 31-34. [LIU H L,MA T F,CHENG Y P,et al. Migration of LNAPLs Contaminant in Layered Heterogeneous Porous Media[J].Environmental Science & Technology, 2013,36(1): 31-34.(in Chinese)]
[15] [15]刘汉乐,张晨富,刘宝臣,等.轻非水相液体在不同粒径多孔介质中的运移与分布特性[J].水文地质工程地质,2014, 41(2):105-110. [LIU H L,ZHANG C F,LIU B C,et al.Experimental investigation of migration and distribution characteristics of LNAPL contaminants in porous media of different particle sizes[J].Hydrogeology & Engineering Geology, 2014,41(2):105-110.(in Chinese)]
-
期刊类型引用(5)
1. 肖鹏,刘汉乐. 饱和砂土中DNAPL污染物迁移过程及数值模拟. 中国环境科学. 2024(01): 386-395 . 
百度学术
2. 郭银河,章定文,祁妍敏,林文丽. 基于高密度电阻率成像法的低渗黏土中轻非水相液体运移规律探索. 环境工程学报. 2024(01): 261-269 . 百度学术
3. 窦健伟,潘玥,徐蓓艺,周峰. 低渗透性介质中DNAPL污染物迁移与修复研究进展. 地质与勘探. 2024(06): 1257-1271 . 百度学术
4. 侯森戈,杨博天,杨登波,刘汉乐. 饱和砂土中粗砂透镜体对DNAPL迁移过程的影响研究. 环境科学与技术. 2022(07): 105-111 . 百度学术
5. 朱鹏锟,习伶宇,覃维维,薛森,苏椿惠,项广树,刘汉乐. 基于图像法的非均质砂土介质中水分饱和过程研究. 地下水. 2021(06): 17-20 . 百度学术
其他类型引用(2)
计量
- 文章访问数: 701
- HTML全文浏览量: 101
- PDF下载量: 488
- 被引次数: 7
下载:
邮件订阅
RSS