Three approaches to improving performance of liquid chromatography using contour maps with pressure, time, and number of theoretical plates

•Contour map with three axes, of pressure, time, and number of theoretical plates•Flow rate and column length are varied to improve speed or separation performance•A method to improve separation by increasing the pressure while maintaining time•An alternative approach for increasing speed by pressur...

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Published inJournal of Chromatography A Vol. 1637; p. 461778
Main Authors Ito, Masahito, Shimizu, Katsutoshi, Nakatani, Kiyoharu
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 25.01.2021
Subjects
Chromatography, Liquid - methods
Coefficients of pressure-application
Hold-up time
Kinetic performance limit
Models, Theoretical
Number of theoretical plates
Optimal velocity
Pressure
Pressure drop
Time Factors
Number of theoretical plates
Kinetic performance limit
Hold-up time
Optimal velocity
Pressure drop
Coefficients of pressure-application
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Abstract •Contour map with three axes, of pressure, time, and number of theoretical plates•Flow rate and column length are varied to improve speed or separation performance•A method to improve separation by increasing the pressure while maintaining time•An alternative approach for increasing speed by pressure while maintaining plates•A delta region defined by the optimal velocity and upper limit of pressure drop Attempts to improve HPLC performance often focus on increasing the speed or separation performance. In this article, both the flow rate and column length are optimized as separation conditions, while observing the number of theoretical plates and hold-up time with isocratic elutions. In addition, the upper pressure limit must be simultaneously considered as the boundary condition. Approaches based on the optimal velocity (Opt.) are often adopted; but the kinetic performance limit (KPL) in Desmet's method can also be utilized for three-dimensional graphing with axes of pressure, time, and number of theoretical plates. Here, two approaches involving pressure increase are introduced, beginning with the condition of optimal linear velocity: one aimed at greater speed and the other at higher resolution. Coefficients of pressure-application are derived to measure the effectiveness of the intermediate conditions between the Opt. and KPL methods. In the third approach, the hold-up time is extended while maintaining a fixed pressure. Coefficients of time-extension are also derived, to determine the effectiveness to improve the separation performance.
AbstractList •Contour map with three axes, of pressure, time, and number of theoretical plates•Flow rate and column length are varied to improve speed or separation performance•A method to improve separation by increasing the pressure while maintaining time•An alternative approach for increasing speed by pressure while maintaining plates•A delta region defined by the optimal velocity and upper limit of pressure drop Attempts to improve HPLC performance often focus on increasing the speed or separation performance. In this article, both the flow rate and column length are optimized as separation conditions, while observing the number of theoretical plates and hold-up time with isocratic elutions. In addition, the upper pressure limit must be simultaneously considered as the boundary condition. Approaches based on the optimal velocity (Opt.) are often adopted; but the kinetic performance limit (KPL) in Desmet's method can also be utilized for three-dimensional graphing with axes of pressure, time, and number of theoretical plates. Here, two approaches involving pressure increase are introduced, beginning with the condition of optimal linear velocity: one aimed at greater speed and the other at higher resolution. Coefficients of pressure-application are derived to measure the effectiveness of the intermediate conditions between the Opt. and KPL methods. In the third approach, the hold-up time is extended while maintaining a fixed pressure. Coefficients of time-extension are also derived, to determine the effectiveness to improve the separation performance.
Attempts to improve HPLC performance often focus on increasing the speed or separation performance. In this article, both the flow rate and column length are optimized as separation conditions, while observing the number of theoretical plates and hold-up time with isocratic elutions. In addition, the upper pressure limit must be simultaneously considered as the boundary condition. Approaches based on the optimal velocity (Opt.) are often adopted; but the kinetic performance limit (KPL) in Desmet's method can also be utilized for three-dimensional graphing with axes of pressure, time, and number of theoretical plates. Here, two approaches involving pressure increase are introduced, beginning with the condition of optimal linear velocity: one aimed at greater speed and the other at higher resolution. Coefficients of pressure-application are derived to measure the effectiveness of the intermediate conditions between the Opt. and KPL methods. In the third approach, the hold-up time is extended while maintaining a fixed pressure. Coefficients of time-extension are also derived, to determine the effectiveness to improve the separation performance.
ArticleNumber 461778
Author Ito, Masahito
Nakatani, Kiyoharu
Shimizu, Katsutoshi
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Keywords Number of theoretical plates
Kinetic performance limit
Hold-up time
Optimal velocity
Pressure drop
Coefficients of pressure-application
Language English
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Snippet •Contour map with three axes, of pressure, time, and number of theoretical plates•Flow rate and column length are varied to improve speed or separation...
Attempts to improve HPLC performance often focus on increasing the speed or separation performance. In this article, both the flow rate and column length are...
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pubmed
elsevier
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Publisher
StartPage 461778
SubjectTerms Chromatography, Liquid - methods
Coefficients of pressure-application
Hold-up time
Kinetic performance limit
Models, Theoretical
Number of theoretical plates
Optimal velocity
Pressure
Pressure drop
Time Factors
Title Three approaches to improving performance of liquid chromatography using contour maps with pressure, time, and number of theoretical plates
URI https://dx.doi.org/10.1016/j.chroma.2020.461778
https://www.ncbi.nlm.nih.gov/pubmed/33359796
Volume 1637
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