Daniel B. Stephens & Associates, Inc., Santa Barbara, California, USA.
J Environ Sci Health A Tox Hazard Subst Environ Eng. 2013;48(4):355-9. doi: 10.1080/10934529.2013.727733.
The miscible-displacement method is one commonly used approach for measuring equilibrium sorption coefficients. The objective of this research was to examine the impact of experiment conditions (detection limit, input-pulse size, input concentration) on the measurement of retardation factors and sorption coefficients for a system that exhibits significant nonideal sorption behavior. A series of miscible-displacement experiments was conducted wherein effluent solute concentrations were monitored over a range of approximately seven orders of magnitude, allowing characterization of asymptotic tailing phenomenon, which was significant. The magnitude of K(d) increased asymptotically with the increase in the extent of the elution tail measured. The results also showed that the fraction of the tail required to obtain close-to-maximum measures of K(d) is greater for smaller input pulses. Investigating the impact of analytical detection limit (equivalent to relative concentrations of 10(-3) and 10(-7)) revealed that the magnitude of K(d) was invariant with input pulse for the 10(-7) detection limit. Conversely, the measured K(d) values were significantly smaller at low input pulses for the 10(-3) detection limit.
混相驱替法是一种常用于测量平衡吸附系数的方法。本研究的目的是考察实验条件(检测限、输入脉冲大小、输入浓度)对表现出显著非理想吸附行为的体系的阻滞因子和吸附系数测量的影响。进行了一系列混相驱替实验,其中在大约七个数量级的范围内监测了流出物溶质浓度,从而可以对显著的渐近尾部现象进行特征描述。K(d)的大小随洗脱尾部的测量程度的增加而渐近增加。结果还表明,对于较小的输入脉冲,获得接近最大 K(d)测量值所需的尾部分数更大。研究分析检测限(相当于 10(-3)和 10(-7)的相对浓度)的影响表明,对于 10(-7)检测限,输入脉冲对 K(d)的大小没有影响。相反,对于 10(-3)检测限,在低输入脉冲时,测量的 K(d)值显著较小。