This book addresses the fundamentals of CO2 storage for long-term
sequestration in a subsurface geologic formation. In general,
membrane gas separation can find a large room of application in
flue gas. To achieve the development of this technology on a larger
scale than which is possible in the lab we have to use membrane
engineering. Consequently, greater emphasis is placed on novel
materials for gas separation. Possible design strategies and role
of novel materials are discussed. Additionally, the latest progress
in design and preparation of asymmetric membranes for natural gas
purification are highlighted. In fact, further development should
focus on module and process design in order to bring gas separation
membrane technology into commercial application. Therefore, the
keys issues to propel current research towards industrial
application are examined. Besides, the feasibility of implementing
polyimide membrane for CO2 removal under real industrial conditions
and its economic viability are highlighted. In order to exhibit
excellent film-forming properties, zeolite membrane and cellulose
acetate butyrate membrane areaddressed. Interestingly, it was found
that the most accurate theoretical three-phase model is arguably
revised Pal model with average percentage error of 0.74%.
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