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    Fabrication of Hollow Fiber Membrane from Polyarylate–Polyarylate Block Copolymer for Air Separation

    New search for: Ivanov, M. V.
    New search for: Storozhuk, I. P.
    New search for: Dibrov, G. A.
    New search for: Semyashkin, M. P.
    New search for: Pavlukovich, N. G.
    New search for: Kagramanov, G. G.

    Abstract A process has been developed for spinning asymmetric hollow fiber membranes from a polyarylate–polyarylate block copolymer having a separation factor for pure gases in the oxygen–nitrogen pair of α(O2/N2) = 6.3 and an oxygen permeance coefficient of 2.4 Barrer. The effect of the polymer molecular weight, the composition of the dope solution, and the spinning parameters on the gas transport properties of the hollow fiber membrane and its geometry has been studied. The use of a polymer with a molecular weight of 67 kDa, as well as the introduction of surfactants into the dope solution, has made it possible to prepare samples of defect-free membranes with an oxygen permeance of 120 L(STP)/(m2 h bar) and a separation factor of α(O2/N2) = 6.5, which correspond to the selective layer thickness of 60 nm.

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    Fabrication of Hollow Fiber Membrane from Polyarylate–Polyarylate Block Copolymer for Air Separation

    New search for: Ivanov, M. V.
    New search for: Storozhuk, I. P.
    New search for: Dibrov, G. A.
    New search for: Semyashkin, M. P.
    New search for: Pavlukovich, N. G.
    New search for: Kagramanov, G. G.

    Abstract A process has been developed for spinning asymmetric hollow fiber membranes from a polyarylate–polyarylate block copolymer having a separation factor for pure gases in the oxygen–nitrogen pair of α(O2/N2) = 6.3 and an oxygen permeance coefficient of 2.4 Barrer. The effect of the polymer molecular weight, the composition of the dope solution, and the spinning parameters on the gas transport properties of the hollow fiber membrane and its geometry has been studied. The use of a polymer with a molecular weight of 67 kDa, as well as the introduction of surfactants into the dope solution, has made it possible to prepare samples of defect-free membranes with an oxygen permeance of 120 L(STP)/(m2 h bar) and a separation factor of α(O2/N2) = 6.5, which correspond to the selective layer thickness of 60 nm.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Fabrication of Hollow Fiber Membrane from Polyarylate–Polyarylate Block Copolymer for Air Separation

    New search for: Ivanov, M. V.
    New search for: Storozhuk, I. P.
    New search for: Dibrov, G. A.
    New search for: Semyashkin, M. P.
    New search for: Pavlukovich, N. G.
    New search for: Kagramanov, G. G.

    Abstract A process has been developed for spinning asymmetric hollow fiber membranes from a polyarylate–polyarylate block copolymer having a separation factor for pure gases in the oxygen–nitrogen pair of α(O2/N2) = 6.3 and an oxygen permeance coefficient of 2.4 Barrer. The effect of the polymer molecular weight, the composition of the dope solution, and the spinning parameters on the gas transport properties of the hollow fiber membrane and its geometry has been studied. The use of a polymer with a molecular weight of 67 kDa, as well as the introduction of surfactants into the dope solution, has made it possible to prepare samples of defect-free membranes with an oxygen permeance of 120 L(STP)/(m2 h bar) and a separation factor of α(O2/N2) = 6.5, which correspond to the selective layer thickness of 60 nm.

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    Title:

    Fabrication of Hollow Fiber Membrane from Polyarylate–Polyarylate Block Copolymer for Air Separation

    Contributors:

    Ivanov, M. V. (author) / Storozhuk, I. P. (author) / Dibrov, G. A. (author) / Semyashkin, M. P. (author) / Pavlukovich, N. G. (author) / Kagramanov, G. G. (author)

    Published in:

    Petroleum Chemistry ; 58 ; 289-295

    Publication date:

    2018-04-01

    Size:

    7 pages

    ISSN:

    1555-6239 , 0965-5441

    DOI:

    https://doi.org/10.1134/S0965544118040047

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    gas separation , spinning of hollow fiber membranes , air separation Chemistry , Industrial Chemistry/Chemical Engineering

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