Breakthrough tests on preferential flow in municipal solid waste

ZHANG Wen-jie; YAN Hong-gang; SUN Cheng

doi:10.11779/CJGE201807019

Volume 40 Issue 7

Turn off MathJax

Article Contents

Abstract

References

Chinese Journal of Geotechnical Engineering > 2018 > 40(7): 1316-1321. > DOI: 10.11779/CJGE201807019

ZHANG Wen-jie, YAN Hong-gang, SUN Cheng. Breakthrough tests on preferential flow in municipal solid waste[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(7): 1316-1321. DOI: 10.11779/CJGE201807019

Citation:

PDF (484 KB)

Breakthrough tests on preferential flow in municipal solid waste

Department of Civil Engineering, Shanghai University, Shanghai 200072, China

More Information

Received Date: April 25, 2017
Published Date: July 24, 2018

Graphical Abstract

Abstract

Abstract

The municipal solid waste (MSW) is characterized by large pores, so the water flow in MSW often takes the form of preferential flow. The fundamental rules of the preferential flow in MSW has not been revealed thoroughly at present, and parameters in numerical analysis still need to be studied further. The solute breakthrough tests are carried out by using Cl^- as a tracer to investigate the preferential flow in MSW. The influences of depth and age, sample heights and infiltration rates on the preferential flow are considered. The regression analysis is performed using the log-normal probability distribution model and bimodal probability density model. The results show that 55% to 70% of the total solute is transported through large pores, indicating that the preferential flow is obvious in MSW. The proportion of pores that participates in solute movement increases as the depth and ages increase, but the proportion of solute movement through large pores decreases, such that the degree of preferential flow decreases. As heights of the MSW sample increase, the connectivity of large pores in MSW decreases and the proportion of solute movement through large pores decreases, so the degree of preferential flow decreases. As the infiltration rate increases, the proportion of solute movement through large pores increases and the degree of preferential flow increases. The bimodal probability density model is more suitable than the log-normal probability distribution model to characterize the preferential flow in MSW. The analysis helps to determine the parameters in two-domain model in analysis of water movement in MSW.
- municipal solid waste,
- preferential flow,
- breakthrough test,
- regression analysis

FullText(HTML)

References (13)

References

[1]	ZEISS C, UGUCCIONI M.Mechanisms and patterns of leachate flow in municipal solid waste landfills[J]. Journal of Environmental Systems, 1994, 23(3): 247-270.
[2]	HENDRICKX J M H, FLURY M. Uniform and preferential flow mechanisms in the vadose zone. Conceptual models of flow and transport in the fractured vadose zone[M]. Washington D C: National Academy Press, 2001: 149-187.
[3]	WEILER M, NAEF F.An experimental tracer study of the role of macropores in infiltration in grassland soils[J]. Hydrological Processes, 2003, 17(2): 477-493.
[4]	KULLI B, GYSI M, FLÜHLER H. Visualizing soil compaction based on flow pattern analysis[J]. Soil & Tillage Research, 2003, 70(1): 29-40.
[5]	牛健植, 余新晓, 邵文伟, 等. 森林生态系统优先流研究[M]. 北京: 科学出版社, 2013: 81-87. (NIU Jian-zhi, YU Xin-xiao, SHAO Wen-wei, et al.Study of soil preferential flow in the ecological system of forest[M]. Beijing: Science Press, 2013: 81-87. (in Chinese))
[6]	张文杰. 城市生活垃圾填埋场中水分运移规律研究[D]. 杭州: 浙江大学, 2007. (ZHANG Wen-jie.Experimental and numerical study on water/leachate transport in landfill of municipal solid waste[D]. Hangzhou: Zhejiang University, 2007. (in Chinese))
[7]	WATSON G, WOODMAN N.Laboratory scale delineation of ‘preferential flow’ in landfill[C]// 2nd Workshop on Geophysical Measurements at Landfills. Malmö, 2012.
[8]	ROSQVIST N H, DOLLAR L H, FOURIE A B.Preferential flow in municipal solid waste and implications for long-term leachate quality: valuation of laboratory-scale experiments[J]. Waste Management Research, 2005, 23(4): 285-295.
[9]	ÖMAN C, ROSQVIST H.Transport fate of organic compounds with water through landfills[J]. Water Research, 1999, 33(10): 2247-2254.
[10]	FELLNER J, BRUNNER P H.Modeling of leachate generation from MSW landfills by a 2-dimensional 2-domain approach[J]. Waste Management, 2010, 30(11): 2084-2095.
[11]	WHITE R E, DYSON J S, HAIGH R A, et al.A transfer function model of solute transport through soil 2: illustrative applications[J]. Water Resources Research, 1986, 22(2): 248-254.
[12]	JURY W A.Simulation of solute transport using a transfer function model[J]. Water Resources Research, 1982, 18(2): 363-368.
[13]	GUPTA A, DESTOUNI G, JENSENB M B.Modelling tritium and phosphorus transport by preferential flow in structured soil[J]. Journal of Contaminant Hydrology, 1999, 35(4): 389-407.

Supplements (0)

Cited By

Cited by

Periodical cited type(19)

1.	彭俊皓，魏玉峰，李常虎，王群，李征征. 基于DBO-GRNN神经网络的冰水堆积物渗透系数预测. 人民长江. 2025(02): 167-174 .
2.	张杰，黄勇. 长江漫滩区软土渗透系数计算方法对比分析. 中国煤炭地质. 2024(02): 37-42 .
3.	王宇虓，杜广印，刘松玉，杨泳，周同和，徐金涛. 振杆密实法加固粗粒混合土模型试验. 工程科学与技术. 2024(03): 99-108 .
4.	樊书抗，杨正权，朱凯斌，赵艺颖，刘小生，赵剑明. 土的级配特征与连续级配方程研究. 水利学报. 2024(05): 597-606 .
5.	郭海，张安银. 基于PCA的长江漫滩软弱黏性土渗透特性研究. 江苏建筑. 2024(04): 102-105 .
6.	赵桂锋，蒋明杰，张振，王天成，梅国雄. 粗粒土缩尺级配的渗透系数规律试验. 工程科学与技术. 2024(05): 240-246 .
7.	李诗琪，杨忠平，刘浩宇，高宇豪，刘新荣. 考虑间断级配影响的土石混合体水力侵蚀分异机理. 土木工程学报. 2024(10): 125-134 .
8.	付宏渊，杨海涛，吴二鲁，曾铃，钟涛，姜懿芸. 考虑炭质泥岩颗粒破碎的级配演化预测模型. 水利学报. 2024(09): 1058-1070 .
9.	杨锴，杨奇，徐方，徐俏东，韩学良. 考虑细粒含量的单参数连续级配方程研究. 铁道科学与工程学报. 2024(12): 5094-5103 .
10.	曲诗章，刘晓明，黎莉，陈仁朋. 基于双分形级配模型参数的粗粒土渗透系数计算公式. 岩土工程学报. 2023(01): 144-152 . 本站查看
11.	侯龙清，袁晓铭，陈龙伟，李明东. 一种新型南55渗透仪研制及工程应用. 岩土工程学报. 2023(02): 419-425 . 本站查看
12.	李浩，李春艳，张嵩，谢英美. 建筑工程中地质特征及岩土工程支护研究. 能源与环保. 2023(01): 181-186 .
13.	赵贵章，孔令莹，徐远志，王淑丽，王展. 银川平原典型介质的颗粒级配对渗透系数的影响研究. 中国农村水利水电. 2023(04): 203-207 .
14.	张福海，徐嘉成，薛浩宇，刘峥嵘. 级配分布对杂填土地基互嵌沉降影响的试验分析. 河南科学. 2023(05): 730-737 .
15.	林玉祥，林浩东，莫品强，褚锋，庄培芝. 基于XGBoost的堆场软土渗透系数反演研究. 西安理工大学学报. 2023(01): 133-140 .
16.	袁仕方，曹志翔，韩志洋，张玲洁. 藏东南粗粒土降雨入渗影响因素试验分析. 高原农业. 2022(02): 189-196 .
17.	丁林楠，李国英，魏匡民. 描述土体级配分布的级配方程及其适用性. 岩土力学. 2022(S1): 173-183 .
18.	段钊，袁林，毕银丽，王凯，吴延斌，张庆. 紫花苜蓿根系-黄土复合体剪切特性与库仑修正模型. 煤田地质与勘探. 2022(12): 85-95 .
19.	骆莉莎，周昕，林军. 颗粒形态对粗粒土渗透系数影响的数值模拟研究. 湖南工业职业技术学院学报. 2021(01): 93-96 .

Other cited types(16)

Get Citation

PDF

XML

Article views PDF downloads Cited by(35)

Breakthrough tests on preferential flow in municipal solid waste

Abstract

References

Cited by

Periodical cited type(19)

Other cited types(16)

Catalog

Related

Breakthrough tests on preferential flow in municipal solid waste

Abstract

References

Cited by

Periodical cited type(19)

Other cited types(16)

Catalog

Related

Export File

Citation

Format

Content