Assessment of the possibility of the performance of a chromatomembrane mass-exchange process on granular composite carbon–fluoroplastic sorbents for the generation of standard gas mixtures

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Abstract

A principal possibility of the performance of continuous and discrete versions of a chromatomembrane mass-exchange process (CMP) in a liquid–gas system on granular supports and composite carbon–fluoroplastic sorbents is shown. In contrast to the previously used block (monolithic) composite sorbents, for their granular analogues, an increase in the concentration of sorption-active materials up to 40% of the support weight is possible. It is shown that composite sorbents included in the CMP scheme are most effective for the generation of standard gas mixtures of volatile organic substances.

Original languageEnglish
Pages (from-to)289-294
Number of pages6
JournalJournal of Analytical Chemistry
Volume72
Issue number3
DOIs
Publication statusPublished - 1 Mar 2017

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Sorbents
Gas mixtures
Composite materials
Sorption

Scopus subject areas

  • Analytical Chemistry

Cite this

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abstract = "A principal possibility of the performance of continuous and discrete versions of a chromatomembrane mass-exchange process (CMP) in a liquid–gas system on granular supports and composite carbon–fluoroplastic sorbents is shown. In contrast to the previously used block (monolithic) composite sorbents, for their granular analogues, an increase in the concentration of sorption-active materials up to 40{\%} of the support weight is possible. It is shown that composite sorbents included in the CMP scheme are most effective for the generation of standard gas mixtures of volatile organic substances.",
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author = "Rodinkov, {O. V.} and Moskvin, {L. N.} and Gorbacheva, {A. R.} and Bugaichenko, {A. S.}",
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AU - Rodinkov, O. V.

AU - Moskvin, L. N.

AU - Gorbacheva, A. R.

AU - Bugaichenko, A. S.

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AB - A principal possibility of the performance of continuous and discrete versions of a chromatomembrane mass-exchange process (CMP) in a liquid–gas system on granular supports and composite carbon–fluoroplastic sorbents is shown. In contrast to the previously used block (monolithic) composite sorbents, for their granular analogues, an increase in the concentration of sorption-active materials up to 40% of the support weight is possible. It is shown that composite sorbents included in the CMP scheme are most effective for the generation of standard gas mixtures of volatile organic substances.

KW - chromatomembrane generation

KW - gas chromatography

KW - PTFE

KW - standard gas mixtures

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