Separation of dipeptides on a reverse-phase column: effect of non-linear intrinsic adsorption kinetics

The Chemical Engineering Journal Pub Date : 1992-09-01 DOI:10.1016/0300-9467(92)80056-G

T.S. Nguyen, S.-G. Hu, D.D. Do

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引用次数: 1

Abstract

Based on experimental results for the system of dipeptides (CBZ-leucyl-glycine and CBZ-glycyl-phenylalanine) on reverse-phase silica C₁₈, a detailed rate model including the intrinsic adsorption kinetics is proposed for multicomponent liquid chromatography. Simulation of the model was performed to investigate the effects of various parameters (rate constants, adsorption affinity, sorbent capacity, axial dispersion, feed concentration, sample size and velocity) on the band shape and spreading of elution chromatography. For cases with a finite rate of interaction between adsorbate and adsorbent, the mean retention time for the elution profiles of solutes is still determined by the equilibrium parameters, while the separation (resolution) between solute bands is largely influenced by the rate constants of the intrinsic adsorption kinetics. The effect of intrinsic adsorption kinetics becomes pre-eminent when the superficial velocity V_f is high. An optimal resolution diagram is presented to facilitate determination of the optimal operation parameters for touching-band separation.

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反相柱上二肽的分离:非线性本征吸附动力学的影响

基于二肽(cbz -亮氨酸-甘氨酸和cbz -甘氨酸-苯丙氨酸)在反相二氧化硅C18上的实验结果，提出了包含本征吸附动力学的多组分液相色谱的详细速率模型。通过模型仿真研究了速率常数、吸附亲和度、吸附剂容量、轴向分散、进料浓度、样品大小和流速等参数对洗脱色谱带形状和展布的影响。在吸附剂与吸附剂相互作用速率有限的情况下，溶质洗脱剖面的平均保留时间仍由平衡参数决定，而溶质条带之间的分离(分解)在很大程度上受本征吸附动力学速率常数的影响。当表面速度Vf较大时，本征吸附动力学的影响显著。提出了一种最佳分辨率图，以便于确定触摸带分离的最佳操作参数。

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