Modified Lag Time Method for Determination of Gas Transfer Parameters of Membrane Layers of Bilayer Membrane

Ugrozov, V. V.

doi:10.7868/S2218118025020052

PII

S22181180S2218117225020052-1

DOI

10.7868/S2218118025020052

Publication type

Article

Status

Published

Authors

V. V. Ugrozov

Affiliation: Financial University under the Government of the Russian Federation

Volume/ Edition

Volume 15 / Issue number 2

Pages

141-150

Abstract

For the first time, a modified lag time method has been developed to determine the gas transfer parameters of layers of bilayer membrane. Analytical expressions for the lag time of gas pressure change depending on the position of the bilayer membrane in the membrane system are obtained. For the first time, a method is proposed to determine the permeabilities, diffusion coefficients and gas solubility of each layer of a bilayer membrane. It can also be used to evaluate the degree of influence of different methods of membrane layer modification and methods of bilayer membrane formation on the gas transfer parameters of the membrane and its layers.

Keywords

бислойная мембрана диффузия метод времени запаздывания селективный слой подложка

Date of publication

13.02.2026

Year of publication

2026

Number of purchasers

Views

References

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GOST	Ugrozov V. Modified Lag Time Method for Determination of Gas Transfer Parameters of Membrane Layers of Bilayer Membrane // Membranes and Membrane Technologies. – 2025. – V. 15. – Issue number 2 C. 141-150 . URL: https://memtechras.ru/s22181180s2218117225020052-1/?version_id=118345. DOI: 10.7868/S2218118025020052
MLA	Ugrozov, V. V "Modified Lag Time Method for Determination of Gas Transfer Parameters of Membrane Layers of Bilayer Membrane." Membranes and Membrane Technologies. 15.2 (2025).:141-150. DOI: 10.7868/S2218118025020052
APA	Ugrozov V. (2025). Modified Lag Time Method for Determination of Gas Transfer Parameters of Membrane Layers of Bilayer Membrane. Membranes and Membrane Technologies. vol. 15, no. 2, pp.141-150 DOI: 10.7868/S2218118025020052

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