Effect of Sodium N-lauroyl Ethylenediamine Triacetate on Loess Soil Adsorption toward Pb and Zn

QIAO Hong-tao;ZHAO Bao-wei;DIAO Jing-ru;MA Feng-feng;School of Environmental and Municipal Engineering/Lanzhou Jiaotong University;

Chelating surfactant;;loess soil;;adsorption;;Pb, Zn

Novel chelating surfactant, sodium N-lauroyl ethylenediamine triacetate, has all the properties of ordinary surfactants. The chelating surfactant also has the ability to chelate heavy metal ions, forming stable chelating complexes. The batch experiment was conducted to investigate adsorption of Pb and Zn on loess soil and effect of LED3A on their adsorption behavior. In order to provide references for the remediation of heavy metal contaminated soil by LED3A. The results of adsorption of Pb and Zn on loess soil experiment showed that the adsorption capacity of Pb on loess soil was significantly greater than that of Zn. Isothermal adsorption process could be best described by the Tempkin and Langmuir isothermal adsorption models. The effect of LED3A on adsorption of Pb and Zn onto loess soil showed that LED3A could inhibit the adsorption of Pb and Zn on loess soil. When the concentration of LED3A reached 5 g·L~(-1), its inhibitory effect on the adsorption capacity of Pb and Zn reached the maximum, 2.38 and 6.38 g·kg~(-1), indicating that the chelating ability of LED3A monomer to Pb was stronger than that of Zn, and the chelating ability of LED3A micelles to Zn was stronger than that of Pb.