摘要
建立了污染物在对流、分子扩散和热扩散作用下压实黏土衬垫(CCL)的一维运移解析模型,并获得解析解。无量纲设计曲线表明对流作用对污染物在CCL中运移的影响至关重要;然而随着热扩散作用的增强,对流作用的影响会有所减弱。参数敏感性分析结果表明,当渗滤液水头达到3 m时,10 a的底部浓度和通量分别是无对流情况下的3.5~4.9倍和5.9~15.1倍;当热扩散作用较强(M=-5)时,10 a底部浓度和通量是无热扩散作用下的2.6倍和3.5倍;温度升高会增大土的渗透系数,从而影响污染物在CCL中的运移,在衬垫系统设计过程中应予以考虑。提出了衬垫厚度设计简化计算方法,并以西安江村沟填埋场为例,对CCL进行了简化设计;结果表明:若要保证渗滤液中的Cl-和As击穿CCL的时间大于50 a,则CCL的厚度分别需要不小于11.16 m和1.75 m。
A one-dimensional analytical model as well as the analytical solution for the contaminant transport in compacted clay liner(CCL) is proposed. The dimensionless design curves show that the advection has significant effects on the contaminant transport in CCL. However, with the increases of thermal diffusion, the effects of the advection will decrease. The results of parameter sensitive analysis show when the leachate head reaches 3 m, the 10-year bottom concentration and flux increase by the factors of 3.5~4.9 and 5.9~15.1, respectively, compared with those without the advection. When the thermal diffusion is great enough(M=-5), the bottom concentration and flux increase by the factors of 2.6 and 3.5, respectively,compared with those without the thermal diffusion. The effects of the temperature on the permeability coefficient of CCL should be considered in the design of landfill clay liners. A simplified method for determination of the thickness of the landfill liner is proposed. The simplified method is used to design the liner system at the Jiangcungou Landfill site in Xi ’an. When considering the chloride(Cl-) and arsenic(As) as the index contaminants, the breakthrough time will be longer than 50 years in the case with the thickness of CCL larger than 11.16 m and 1.75 m, respectively.
作者
张春华
黄江东
李晓宙
谢海建
陈赟
ZHANG Chunhua;HUANG Jiangdong;LI Xiaozhou;XIE Haijian;CHEN Yun(Jiangxi Province Key Laboratory of Environmental Geotechnical Engineering and Hazards Control,Jiangxi University of Science and Technology,Ganzhou 341000,China;Center for Balance Architecture,Zhejiang University,Hangzhou 310058,China;The Architectural Design and Research Institute of Zhejiang University Co.,Ltd.,Hangzhou 310028,China)
出处
《岩土工程学报》
EI
CAS
CSCD
北大核心
2023年第3期541-550,共10页
Chinese Journal of Geotechnical Engineering
基金
国家重点研发计划项目(2019YFC1806005)
国家自然科学基金项目(41977223,41931289,52278375)
江西省自然科学基金项目(20202BAB214025)
江西省教育厅科学技术研究项目(GJJ190503)。
关键词
解析模型
温度
热扩散
渗滤液
简化设计
analytical model
temperature
thermal diffusion
leachate
simplified design