Recycling gel chromatography of phenolic compounds. II. Numerical calculation of optimal number of cycles and resolution

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Abstract

Equations are derived for the calculation of the optimal number of cycles and resolution in recycling gel chromatography. The resolution obtained at the optimal number of cycles is expressed as a function of relative peak distance and number of theoretical plates. The peak distance-relative peak distance function has also been studied and some examples of the recycling separation of phenolic compounds are discussed.

Original languageEnglish
Pages (from-to)35-42
Number of pages8
JournalJournal of Chromatography A
Volume107
Issue number1
DOIs
Publication statusPublished - Apr 9 1975

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Recycling
Chromatography
Gel Chromatography
Gels

ASJC Scopus subject areas

  • Analytical Chemistry
  • Clinical Biochemistry
  • Molecular Medicine

Cite this

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title = "Recycling gel chromatography of phenolic compounds. II. Numerical calculation of optimal number of cycles and resolution",
abstract = "Equations are derived for the calculation of the optimal number of cycles and resolution in recycling gel chromatography. The resolution obtained at the optimal number of cycles is expressed as a function of relative peak distance and number of theoretical plates. The peak distance-relative peak distance function has also been studied and some examples of the recycling separation of phenolic compounds are discussed.",
author = "H. Kal{\'a}sz and J. Nagy and J. Knoll",
year = "1975",
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AU - Nagy, J.

AU - Knoll, J.

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N2 - Equations are derived for the calculation of the optimal number of cycles and resolution in recycling gel chromatography. The resolution obtained at the optimal number of cycles is expressed as a function of relative peak distance and number of theoretical plates. The peak distance-relative peak distance function has also been studied and some examples of the recycling separation of phenolic compounds are discussed.

AB - Equations are derived for the calculation of the optimal number of cycles and resolution in recycling gel chromatography. The resolution obtained at the optimal number of cycles is expressed as a function of relative peak distance and number of theoretical plates. The peak distance-relative peak distance function has also been studied and some examples of the recycling separation of phenolic compounds are discussed.

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