Wall, Y.Y.WallBraun, G.G.BraunKaltenborn, N.N.KaltenbornVoigt, I.I.VoigtBrunner, G.G.Brunner2022-03-042022-03-042012https://publica.fraunhofer.de/handle/publica/22835110.1002/ceat.201100433The permeation and separation performance of an ultramicroporous carbon membrane for separation of CO 2/N 2 mixtures were investigated. The experiments were conducted using the steady-state measurement method with pure gases (dead-end mode) and a CO 2/N 2 gas mixture (20/80mol.-%) (cross-flow mode) in the temperature range from 293K to 363K and at feed pressures of up to 1.4MPa and atmospheric pressure on the permeate side. The membrane exhibited a selectivity of about 25 and permeability of about 500Barrer for CO 2 in the mixture with N 2. The single-gas measurements do not reflect the membrane performance correctly. An adsorption-selective effect is assumed to be the main separation mechanism. Moreover, membrane-aging effects causing blocking due to pore constrictions through adsorption were observed. These pore constrictions lower the permeability, but they raise the selectivity. Operation at high temperatures leads to a reduction of aging effects.encarbon membranegas separationpst combustion620666660journal article