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周凤玺, 罗玚, 马强. 温度梯度作用下非饱和土中铅离子迁移机理研究[J]. 岩土工程学报, 2023, 45(9): 1822-1830. DOI: 10.11779/CJGE20220741
引用本文: 周凤玺, 罗玚, 马强. 温度梯度作用下非饱和土中铅离子迁移机理研究[J]. 岩土工程学报, 2023, 45(9): 1822-1830. DOI: 10.11779/CJGE20220741
ZHOU Fengxi, LUO Yang, MA Qiang. Migration mechanism of lead ions in unsaturated loess under temperature gradient[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(9): 1822-1830. DOI: 10.11779/CJGE20220741
Citation: ZHOU Fengxi, LUO Yang, MA Qiang. Migration mechanism of lead ions in unsaturated loess under temperature gradient[J]. Chinese Journal of Geotechnical Engineering, 2023, 45(9): 1822-1830. DOI: 10.11779/CJGE20220741

温度梯度作用下非饱和土中铅离子迁移机理研究

Migration mechanism of lead ions in unsaturated loess under temperature gradient

  • 摘要: 基于多孔介质理论及连续介质热弹性力学,研究了温度梯度作用下重金属离子在非饱和黄土中的迁移机理。首先,通过非等温吸附试验确定了黄土颗粒对铅离子的吸附模型;其次,以固、液、气三相系统中各组分质量、能量以及动量守恒方程为基础,建立了表征温度梯度下非饱和土中污染物迁移的多场耦合数学模型,模型考虑了重金属离子的吸附、孔隙流体的迁移及相变、温度梯度下土体的变形等因素,以温度、孔隙率、孔隙水压、孔隙气压、重金属离子浓度、吸附浓度、土体骨架位移为基本未知量,较全面反映了非饱和土体中热质迁移规律及变形特点;最后,开展非饱和黄土中铅离子迁移土柱试验,验证理论模型的可靠性,并分析了各因素对铅离子迁移规律的影响。结果表明:Langmuir非线性吸附模型比较符合黄土颗粒对铅离子的吸附特征,最大吸附量随温度升高而降低,温度梯度对非饱和黄土中污染物迁移有较明显促进作用;不计土体湿陷效应时,温度梯度及吸湿膨胀使土柱产生拉伸变形,重力、孔隙水压及孔隙气压共同作用使土柱产生压缩变形,后者影响大于前者,故土柱整体为压缩变形;污染物迁移随时间增长而减弱,吸附作用是长期过程,时间增长对其影响不显著。

     

    Abstract: Based on the theory of porous media and the continuum thermoelasticity, the migration mechanism of heavy metal ions in unsaturated soils under temperature gradient is studied. Firstly, the adsorption model for the lead ion by soil particles is determined through the non-isothermal adsorption tests. Secondly, based on the mass conservation, energy conservation and momentum conservation equations for various components in the three-phase system of solid, liquid and gas, a multi-physical field coupling mathematical model characterizing the migration of pollutants in unsaturated soils under temperature gradient is established. The model takes into account the adsorption effects of heavy metal ions, the migration of pore fluid, the compressibility of phase change soil skeleton and pore fluid phase and the deformation of soils regarding the temperature, porosity, pore water pressure, pore gas pressure, heavy metal ion concentration, adsorption concentration and soil skeleton displacement as the basic unknowns, which comprehensively reflect the characteristics of heat and mass migration and deformation in unsaturated soils. Finally, a soil column test on the migration of lead ions in unsaturated loess is carried out to verify the effectiveness of the theoretical model and the numerical results, and the influences of various factors on the migration laws of lead ions are analyzed. The results show that the Langmuir nonlinear adsorption model is more consistent with the adsorption characteristics of unsaturated loess for lead ions, and the maximum adsorption capacity decreases with the increase of temperature. The temperature gradient can obviously promote the migration of pollutants in unsaturated loess. While the pollutants migrate in unsaturated loess soil column, the whole soil column is in tensile deformation state. The migration of pollutants decreases with time. The adsorption is a long-term process, and the effects of time on it are not significant.

     

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