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张春华, 黄江东, 邓正定, 谢海建, 邓通发. 热渗透作用下有机污染物在双人工复合衬层中的一维运移模型[J]. 岩土工程学报, 2024, 46(6): 1254-1262. DOI: 10.11779/CJGE20230280
引用本文: 张春华, 黄江东, 邓正定, 谢海建, 邓通发. 热渗透作用下有机污染物在双人工复合衬层中的一维运移模型[J]. 岩土工程学报, 2024, 46(6): 1254-1262. DOI: 10.11779/CJGE20230280
ZHANG Chunhua, HUANG Jiangdong, DENG Zhengding, XIE Haijian, DENG Tongfa. One-dimension model for transport of organic contaminants in double-artificial composite liner under thermal osmosis[J]. Chinese Journal of Geotechnical Engineering, 2024, 46(6): 1254-1262. DOI: 10.11779/CJGE20230280
Citation: ZHANG Chunhua, HUANG Jiangdong, DENG Zhengding, XIE Haijian, DENG Tongfa. One-dimension model for transport of organic contaminants in double-artificial composite liner under thermal osmosis[J]. Chinese Journal of Geotechnical Engineering, 2024, 46(6): 1254-1262. DOI: 10.11779/CJGE20230280

热渗透作用下有机污染物在双人工复合衬层中的一维运移模型

One-dimension model for transport of organic contaminants in double-artificial composite liner under thermal osmosis

  • 摘要: 建立了热渗透作用下有机污染物在双人工复合衬层中的一维运移模型,利用COMSOL Multiphysics数值软件对模型进行模拟计算并对相关参数进行参数分析。结果表明,即使渗滤液水头hw增大到10 m,双人工复合衬层底部浓度仅增加了4.9%,这表明渗滤液水头对有机污染物在双人工复合衬层中运移的影响较小。当热渗透系数达到5×10-11 m2·K-1·s-1时衬垫系统底部浓度增加了31.5%;热渗透系数kT > 1×10-11 m2·K-1·s-1时,在双人工复合衬层的设计中需要考虑热渗透作用的影响。次衬层中土工膜上连接的褶皱长度和漏洞频率对有机污染物在双人工复合衬层中运移的影响则十分显著,褶皱长度由10 m增加到100 m时底部浓度增加了87%。在双人工复合衬层施工中,严格控制次衬层土工膜施工质量,减少褶皱和漏铜的产生,能有效提高衬垫系统的服役性能。

     

    Abstract: A one-dimensional model for transport of organic contaminants in a double-artificial composite liner under thermal osmosis is proposed. The model is simulated by using the COMSOL Multiphysics. The results show that the bottom concentration only increases by 4.9% even when the leachate head increases to 10 m. It means that the effects of leachate head on transport of organic contaminants in the double-artificial composite liner are negligible. The bottom concentration of the double-artificial composite liner system will increase by 31.5% when the coefficient of thermal osmosis increases to 5×10-11 m2·K-1·s-1. The effects of thermal osmosis should be considered in the double-artificial composite liner design when the coefficient of thermal osmosis reaches 1×10-11 m2·K-1·s-1. The length of wrinkle and the frequency of holes on the secondary liner geomembrane have significant effects on contaminant transport in the double-artificial composite liner. The bottom concentration increases by 87% when the length of wrinkle increases from10 to 100 m. In the construction of the double-artificial composite liner, the construction quality of the secondary liner geomembrane should be strictly controlled to reduce the generation of wrinkles and holes, which can effectively improve the service performance of the liner system.

     

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