High-Pressure Aging of Asymmetric Torlon® Hollow Fibers for Helium Separation from Natural Gas

Membrane separation for helium extraction from natural gas gained increased interest recently. Several vendors offer membrane elements for helium extraction, although data on their performance and operating experience are unpublished. The aim of this work was to obtain and study the separation perfo...

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Published in	Fibers Vol. 6; no. 4; p. 83
Main Authors	Dibrov, George, Ivanov, Mikhail, Semyashkin, Mikhail, Sudin, Vladislav, Kagramanov, Georgy
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.12.2018
Subjects	Aging Aging (natural) Asymmetry Binary mixtures Ethanol Flow velocity Gas membrane separation gas separation Gases Helium Hollow fiber membranes Membrane separation Methane Natural gas Nitrogen Permeability Polyamide resins Polyamide-imides Polyimideamides polymeric hollow-fiber membranes Polymers Reluctance Scanning electron microscopy Selectivity Solvents Temperature Thickness
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Abstract	Membrane separation for helium extraction from natural gas gained increased interest recently. Several vendors offer membrane elements for helium extraction, although data on their performance and operating experience are unpublished. The aim of this work was to obtain and study the separation performance of asymmetric hollow-fiber membrane element from commercial polyamide-imide Torlon®, in conditions close to the industrial process of helium extraction from natural gas. A membrane element with an active area of 0.177 m2, a helium permeance of 100 l(STP)/(m2·h·bar), and a selectivity α(He/CH4) = 340 was produced. This corresponds to a selective layer thickness of 82.3 nm, which was confirmed by SEM and resistance model calculations. The obtained membrane element was employed to decrease the concentration of helium in its binary mixture with methane from 0.4% to 0.05%. A relationship of separation characteristics from transmembrane pressure is also presented. At 70 bar and a stage cut of 2.7%, the feed flow rate was 0.16 m3(STP)/h, which yielded a helium permeate concentration of 14.7%. At 80 bar, a decrease in permeance to 60 l(STP)/(m2·h·bar) and in selectivity to 240 was observed. It was shown that the main reason for aging was the increased support resistance, due to a partial compaction of pores with a radius of less than 15 nm.
AbstractList	Membrane separation for helium extraction from natural gas gained increased interest recently. Several vendors offer membrane elements for helium extraction, although data on their performance and operating experience are unpublished. The aim of this work was to obtain and study the separation performance of asymmetric hollow-fiber membrane element from commercial polyamide-imide Torlon®, in conditions close to the industrial process of helium extraction from natural gas. A membrane element with an active area of 0.177 m2, a helium permeance of 100 l(STP)/(m2·h·bar), and a selectivity α(He/CH4) = 340 was produced. This corresponds to a selective layer thickness of 82.3 nm, which was confirmed by SEM and resistance model calculations. The obtained membrane element was employed to decrease the concentration of helium in its binary mixture with methane from 0.4% to 0.05%. A relationship of separation characteristics from transmembrane pressure is also presented. At 70 bar and a stage cut of 2.7%, the feed flow rate was 0.16 m3(STP)/h, which yielded a helium permeate concentration of 14.7%. At 80 bar, a decrease in permeance to 60 l(STP)/(m2·h·bar) and in selectivity to 240 was observed. It was shown that the main reason for aging was the increased support resistance, due to a partial compaction of pores with a radius of less than 15 nm.
Author	Semyashkin, Mikhail Kagramanov, Georgy Ivanov, Mikhail Sudin, Vladislav Dibrov, George
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SubjectTerms	Aging Aging (natural) Asymmetry Binary mixtures Ethanol Flow velocity Gas membrane separation gas separation Gases Helium Hollow fiber membranes Membrane separation Methane Natural gas Nitrogen Permeability Polyamide resins Polyamide-imides Polyimideamides polymeric hollow-fiber membranes Polymers Reluctance Scanning electron microscopy Selectivity Solvents Temperature Thickness
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Title	High-Pressure Aging of Asymmetric Torlon® Hollow Fibers for Helium Separation from Natural Gas
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