(20f) Separation of Butane Isomer Mixtures Using Dense 6FDA-DAM Membranes
AIChE Spring Meeting and Global Congress on Process Safety
2011
2011 Spring Meeting & 7th Global Congress on Process Safety
14th Topical on Refinery Processing
New Projects, Expansion, Revamps, Debottlenecking, and Reliability
Monday, March 14, 2011 - 4:30pm to 5:00pm
SEPARATION
OF BUTANE ISOMER MIXTURES USING DENSE 6FDA-DAM MEMBRANES
Omoye Esekhile,
William J. Koros
oesekhile3@gatech.edu,
bill.koros@chbe.gatech.edu
School of
Chemical and Biomolecular Engineering
Georgia
Institute of Technology, Atlanta, GA
The glassy 6FDA-DAM
polymer has a relatively high fractional free volume, thus allowing for high
permeabilities of butane isomers compared to most other polymers. The
separation performance of this membrane has been studied previously under ideal
conditions of single gas feeds with upstream pressures up to 2atm at 100°C, and
downstream under vacuum. These ideal conditions may give overly optimistic
separation performance estimates.
Mixture gas permeation
studies introduce factors such as sorption and transport competition, and
so-called bulk flow or ?frame of reference? nonidealities. These factors may
significantly influence the separation performance of the membrane even in the
absence of plasticization. The dual mode transport model has been extended to
account for competition in the Langmuir environment of the glassy polymer, and
modified to account for the bulk flow effect. Current work with butane isomers,
however, further suggests a possible breakdown in local equilibrium in the transport
of this mixture system. This adds a previously unobserved effect that may be a
new feature for glassy membrane-based separations of large penetrants
The breakdown in local
equilibrium is hypothesized to result from the slow jump rate of isobutane from
the Langmuir to dissolved environments, relative to the diffusion time scale of
nC4 into the Langmuir environment. An apparent affinity constant for the
faster moving n-butane isomer can be used to describe this breakdown.
In this presentation, I
will discuss the behavior of this mixture system over various feed compositions
and discuss further the possible breakdown of local equilibrium. I will also
suggest ways of enhancing the separation performance of the membrane.