镉在黑土和棕壤中吸附行为比较研究

比较研究了重金属镉在黑土和棕壤中的吸附热力学和动力学行为.结果表明,在实验设定的浓度范围内,黑土和棕壤对Cd²⁺吸附量随溶液中Cd²⁺浓度的增加而增加.黑土对Cd²⁺的吸附固定能力明显强于棕壤.在平衡液浓度为20 mg·kg^-1时,黑土对Cd²⁺的吸附量为1 485.2 mg·kg^-1、棕壤为700.6 mg·kg^-1.两种土壤对Cd²⁺的吸附等温线与Langmuir、Freundlich和Henry方程均有较好的拟合性,而Temkin方程不适合用来描述Cd²⁺在两种土壤中的等温吸附.根据Langmuir的拟合结果,Cd²⁺在黑土和棕壤中的最大吸附量分别可达5 939.3和2 790 mg·kg^-1.黑土较高的吸附能力与其高的有机质含量和粘粒含量有关.黑土和棕壤中Cd²⁺的吸附是一个快速反应过程,2 min内能达到平衡吸附量的90%,15～30 min左右达到吸附平衡.一级动力学方程是拟合Cd²⁺在黑土和棕壤中吸附动力学过程的最优方程,其次为Elovich方程和双常数方程.随着初始浓度的增加,Cd²⁺在土壤中的吸附速率也不断增大.随着吸附量的增大和反应时间的延长,吸附速率不断下降.在较低的初始浓度下,Cd²⁺在黑土中的下降趋势要快于棕壤.

Adsorption behavior of cadmium in phaeozem and burozem

The study on the thermodynamics and kinetics of Cd2+ adsorption in phaeozem and burozem showed that within the test range, Cd2+ adsorption was increased with its increasing initial concentration, and phaeozem had a much higher Cd2+ adsorption capacity than burozem. When the Cd2+ concentration in adsorption equilibrium was 20 mg x kg(-1), the amount of adsorbed Cd2+ was 1 485.2 mg x kg(-1) in phaeozem, but 700.6 mg x kg(-1) in burozem. The adsorption isotherm of Cd2+ in the two soils could significantly conform to Langmuir, Freundlich and Henry equations, while Temkin equation was not applicable to describe the isothermal adsorption process of Cd2+ in phaeozem and burozem. The maximum adsorption of Cd2+ in phaeozem and burozem was 5939.3 and 2 790 mg x kg(-1), respectively, according to Langmuir formulation. The Cd2+ adsorption in test soils was a rapid reaction, with 90% of Cd2+ adsorption in the first 2 min and reached equilibrium in 15-30 min. First-order dynamic equation was the optimal model to describe the kinetics of Cd2+ adsorption, while the other models in point were Elovich and Two-constant equations. The adsorption rate of Cd2+ in test soils was increased with its increasing initial concentration, but decreased with its increasing adsorbed amount. Under low concentrations of Cd2+, the decrease of its adsorption rate with time was more quickly in phaeozem than in burozem.