Membrane Engineering For The Treatment Of Gases, 2 Volumes Set at Meripustak

Membrane Engineering For The Treatment Of Gases, 2 Volumes Set by Drioli and E and Barbieri and G , Royal Society Of Chemistry

Books from same Author: Drioli and E and Barbieri and G

Books from same Publisher: Royal Society Of Chemistry

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  • General Information  
    Author(s)Drioli and E and Barbieri and G
    PublisherRoyal Society Of Chemistry
    ISBN9781849732444
    Pages600
    BindingHardcover
    LanguageEnglish
    Publish YearJuly 2011

    Description

    Royal Society Of Chemistry Membrane Engineering For The Treatment Of Gases, 2 Volumes Set by Drioli and E and Barbieri and G

    Membranes already have important applications in artificial organs, the processing of biotechnological products, food manufacture, waste water treatment, and seawater desalination. Their uses in gaseous mixture separations are, however, far from achieving their full potential. Separation of air components, natural gas dehumidification and sweeting, separation and recovery of CO2 from biogas, and H2 from refinery gases are all examples of current industrial applications. The use of membranes for reducing the greenhouse effect and improving energy efficiency has also been suggested. New process intensification strategies in the petrochemical industry have opened up another growth area for gas separation membrane systems and membrane reactors. This two volume set presents the state-of-the-art in membrane engineering for the separation of gases. It addresses future developments in carbon capture and utilization, H2 production and purification, and O2/N2 separation. Topics covered include the: applications of membrane gas separation in the petrochemical industry; implementation of membrane processes for post-combustion capture; commercial applications of membranes in gas separations; simulation of membrane systems for CO2 capture; design and development of membrane reactors for industrial applications; Pd-based membranes in hydrogen production; modelling and simulation of membrane reactors for hydrogen production and purification; novel hybrid membrane/pressure swing adsorption process for gas separation; molecular dynamics as a new tool for membrane design, and physical aging of membranes for gas separations.