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人工改性纳米nSiO₂对Cd(Ⅱ)在土水界面分配的影响
赵冉¹, 王力¹, 李荣华，等¹
西北农林科技大学资源环境学院

摘要:

【目的】研究改性纳米吸附材料nSiO₂对土-水界面上Cd(Ⅱ)分配过程的影响。【方法】人工制备改性纳米二氧化硅（nSiO₂），并对其表征进行分析；以采自陕西杨凌和辽宁抚顺的土样YL和FS为研究对象，通过批处理试验法探讨了nSiO₂对不同粒级组成土壤中Cd(Ⅱ)的界面竞争吸附动力学特征。【结果】成功制备粒径为13～28 nm、具有较高分散性、富含-NH₂官能团的改性nSiO₂，其对YL和FS土壤溶液中Cd(Ⅱ)的最大吸附量可达 143.94mg/g左右。YL土壤的砂粒、粉粒和黏粒对Cd(Ⅱ)的最大吸附量则分别为5.76，9.17和11.48 mg/g，FS土壤的砂粒、粉粒和黏粒对Cd(Ⅱ)的最大吸附量分别为6.25，11.54和15.43 mg/g。土壤粒径越小，Cd(Ⅱ)吸附量和释放潜力越大，但Cd(Ⅱ)实际释放量不足吸附量的0.1%。土壤中添加改性nSiO₂后，会导致Cd(Ⅱ)在土-水界面的分配系数明显增大，Cd(Ⅱ)的释放量明显减小，且Cd(Ⅱ)在形成的nSiO₂土-水多元界面体系中具有良好的稳定性。添加改性nSiO₂后，YL土壤砂粒、粉粒和黏粒中Cd(Ⅱ)的分配系数分别增加了2.10,2.28和3.06倍，FS土壤砂粒、粉粒和黏粒中Cd(Ⅱ)的分配系数分别增加了4.61,4.47和4.80倍。Cd(Ⅱ)在nSiO₂土-水多元体系中的界面分配行为受限于伴随有竞争吸附和扩散释放的复杂的非均相准二级动力学过程。【结论】人工改性nSiO₂进入土壤环境后，可以明显减少Cd(Ⅱ)在水相中的分配，增强土壤固相对Cd(Ⅱ)的固定和吸持，在污染土壤修复中具有良好的应用潜力。

关键词: 纳米材料 Cd(Ⅱ) 土-水环境界面分配竞争吸附

DOI：

分类号:

基金项目:国家自然科学基金项目（41101288）；中央高校基本科研业务专项(Z109021565)；西北农林科技大学博士科研启动基金项目(2013BSJJ120)

Effect of modified artificial nSiO₂ nanoparticles on Cd(Ⅱ) interface distribution in water-soil environment

ZHAO Ran,WANG Li,LI Ronghua,et al

Abstract:

【Objective】This study investigated the effect of artificial nanoparticles on Cd(Ⅱ) interface distribution in soil-water environment.【Method】Modified artificial silicate nanoparticles (nSiO₂) were prepared and characterized,and soil samples were collected from Yangling (YL),Shaanxi and Fushun (FS),Liaoning.The Cd(Ⅱ) interface competitive adsorption kinetics with different soil compositions were investigated by batch tests.【Result】Highly dispersed amino-group modified nSiO₂ particles with diameters of 13-28 nm were obtained.The maximum Cd(Ⅱ) adsorption capacity was 143.94 mg/g.Sand,silt and clay fractions of YL soil adsorbed 5.76,9.17,and 11.48 mg/g Cd(Ⅱ),while those of FS soil adsorbed 6.25,11.54 and 15.43 mg/g Cd(Ⅱ),respectively.Cd (II) adsorption process followed the Langmuir adsorption model.Smaller soil particles had greater Cd (Ⅱ) adsorption amount and releasing potential,although the actual releasing amounts were less than 0.1%.Adding nSiO₂ nanomaterial increased Cd(Ⅱ) distribution coefficients significantly in soil-water interface and decreased releasing amounts,and Cd (Ⅱ) presented good stability in the nSiO₂ soil water combined interface system.Cd(Ⅱ) distribution coefficients increased by 2.10, 2.28 and 3.06 times in sand, silt and clay factions of YL soil,and by 4.61,4.47 and 4.80 times in sand,silt and clay factions of FS soil.Cd (Ⅱ) distribution in the nSiO₂ soil-water combined interface system was limited by competitive adsorption and diffusion release combined pseudo-second-order heterogeneous dynamics process.【Conclusion】Modified nSiO₂ significantly enhanced Cd (Ⅱ) fixation and adsorption in soil and reduced Cd(Ⅱ) distribution in aqueous solution,and nSiO₂ presented acceptable potential in polluted soil remediation.

Key words: nanomaterial Cd(Ⅱ) water-soil environment interface distribution competitive adsorption