梯度洗脱制备液相色谱中吸附等温线参数估计模型的选择

Choice of Model for Estimation of Adsorption Isotherm Parameters in Gradient Elution Preparative Liquid Chromatography.

作者信息

Leśko Marek, Åsberg Dennis, Enmark Martin, Samuelsson Jörgen, Fornstedt Torgny, Kaczmarski Krzysztof

机构信息

Department of Chemical and Process Engineering, Rzeszów University of Technology, 35 959 Rzeszów, Poland.

Department of Engineering and Chemical Sciences, INTERACT, Karlstad University, 651 88 Karlstad, Sweden.

出版信息

Chromatographia. 2015;78(19-20):1293-1297. doi: 10.1007/s10337-015-2949-0. Epub 2015 Jul 25.

DOI:10.1007/s10337-015-2949-0

PMID:26435545

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4580716/

Abstract

The inverse method is a numerical method for fast estimation of adsorption isotherm parameters directly from a few overloaded elution profiles and it was recently extended to adsorption isotherm acquisition in gradient elution conditions. However, the inverse method in gradient elution is cumbersome due to the complex adsorption isotherm models found in gradient elution. In this case, physicochemically correct adsorption models have very long calculation times. The aim of this study is to investigate the possibility of using a less complex adsorption isotherm model, with fewer adjustable parameters, but with preserved/acceptable predictive abilities. We found that equal or better agreement between experimental and predicted elution profiles could be achieved with less complex models. By being able to select a model with fewer adjustable parameters, the calculation times can be reduced by at least a factor of 10.

摘要

逆方法是一种直接从少数过载洗脱曲线快速估算吸附等温线参数的数值方法，最近已扩展到梯度洗脱条件下的吸附等温线获取。然而，由于梯度洗脱中存在复杂的吸附等温线模型，梯度洗脱中的逆方法很繁琐。在这种情况下，物理化学上正确的吸附模型计算时间很长。本研究的目的是探讨使用一种不太复杂的吸附等温线模型的可能性，该模型具有较少的可调参数，但具有保留/可接受的预测能力。我们发现，使用不太复杂的模型可以在实验洗脱曲线和预测洗脱曲线之间实现相同或更好的一致性。通过能够选择具有较少可调参数的模型，计算时间可以减少至少10倍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c51/4580716/a77d811daab8/10337_2015_2949_Fig1_HTML.jpg

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梯度洗脱制备液相色谱中吸附等温线参数估计模型的选择

Choice of Model for Estimation of Adsorption Isotherm Parameters in Gradient Elution Preparative Liquid Chromatography.

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