Gas separation technology

proceedings of the International Symposium on Gas Separation Technology, Antwerp, Belgium, September 10-15, 1989 by International Symposium on Gas Separation Technology (1989 Antwerp, Belgium)

Publisher: Elsevier in Amsterdam, Netherlands, New York

Written in English
Cover of: Gas separation technology | International Symposium on Gas Separation Technology (1989 Antwerp, Belgium)
Published: Pages: 700 Downloads: 626
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Subjects:

  • Gases -- Separation -- Congresses.
  • Edition Notes

    Includes bibliographical references and index.

    Statementedited by E.F. Vansant and R. Dewolfs.
    SeriesProcess technology proceedings ;, 8
    ContributionsVansant, E. F., 1945-, Dewolfs, R. 1942-
    Classifications
    LC ClassificationsTP242 .I75 1989
    The Physical Object
    Paginationxvi, 700 p. :
    Number of Pages700
    ID Numbers
    Open LibraryOL1871603M
    ISBN 100444882308
    LC Control Number90031164

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Gas Separation Technology. Gas separation can refer to any number of techniques used to separate gases, either to give multiple products or to purify a single product. Removing liquids and solids from a gas stream is crucial in refining and processing gas applications. Effective contaminant removal can prevent costly problems and reduce downtime with downstream equipment like compressors.   Advanced membranes-from fundamentals and membrane chemistry to manufacturing and applications A hands-on reference for practicing professionals, Advanced Membrane Technology and Applications covers the fundamental principles and theories of separation and purification by membranes, the important membrane processes and systems, and major industrial applications. Gas/Liquid Separation Technology Sulzer is a major player in the field of gas/liquid and liquid/liquid separation technology, offering a full range of innovative products and related services. Our commitment to development of technology, combined with application skills and . Gas separation across a membrane is a pressure driven process, where the driving force is the difference in pressure between inlet of raw material and outlet of product. The membrane used in the process is a generally non-porous layer, so there will not be a severe leakage of gas .

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