(223a) Effect of Confinement On Ionic Liquid Properties for Carbon Capture Processes
AIChE Annual Meeting
2012
2012 AIChE Annual Meeting
Accelerating Fossil Energy Technology Development Through Integrated Computation and Experimentation
Membranes for Gas Separation
Tuesday, October 30, 2012 - 8:30am to 8:55am
Work in our laboratory has focused for a number of years on
examining the potential of room temperature ionic liquids for post combustion
carbon capture processes. Experimental work has involved measurements of carbon
dioxide solubility and diffusivity in different ionic liquids as well as on gas
permeation measurements through supported ionic liquid membranes (SILMs)
prepared using anodic alumina films as the support membrane.
Results from these studies have raised questions about the
impact of a solid interface on the properties of ionic liquids. Gas permeation through SILM systems with
different pore size indicates both carbon dioxide and nitrogen permeation is
larger when the ionic liquid is confined within a 20 nm pore size membrane when
compared to a 100 nm pore size membrane. Ideal selectivity values are generally
the same in the two membrane systems. A
comparison of measured membrane permeation to values predicted from bulk solubility
and diffusivity values shows higher carbon dioxide permeance
in the membranes compared to values predicted from bulk properties of the ionic
liquids.
Gas uptake into confined ionic liquids
have also been experimentally measured, with solubility and diffusivity of
carbon dioxide in the confined ionic liquids compared to bulk phase
characteristics. To date, results have been mixed with results from some ionic
liquids showing no impact of the solid interface whereas others indicate a
significant difference in ionic liquid properties when confined. In this presentation.
Results from these studies will be presented and discussed.
See more of this Group/Topical: Topical D: Accelerating Fossil Energy Technology Development Through Integrated Computation and Experimentation