(628r) Investigation of Nitrogen Transport within Group V Metals for Nitrogen-Selective Membranes
AIChE Annual Meeting
2011
2011 Annual Meeting
Separations Division
Poster Session : Membranes
Wednesday, October 19, 2011 - 6:00pm to 8:00pm
Nitrogen (N2)-selective membranes may be a promising technology for separating N2 as to effectively create a stream of CO2 for indirect carbon capturefrom flue gas. Another application is for O2 production through the selective separation of N2 from air. Additionally, successful implementation of this technology may provide a route to carry out ammonia synthesis at lower energy, compared to the traditional Haber-Bosch process. The goal of this study is to investigate vanadium (V) metals and their alloys as dense membrane materials to obtain improved diffusion of atomic nitrogen. Density functional theory-based theoretical calculations are carried out on the investigation of N2 binding at different interstitial sites of the V crystal. Nitrogen was not found to be stable at T-sites within the bulk V lattice, but stable at O-sites only. Strong attachment of nitrogen to the bulk of vanadium is modified by ruthenium (Ru) alloying at various concentrations for optimized N diffusion. Bader charge analysis is employed to investigate charge-transfer mechanisms associated with bulk nitrogen absorption. In addition to the theoretical modeling, N2 permeation experiments have also been carried out to determine the permeabilities of membrane foils comprised V at different temperatures.
Results will be presented on the bulk transport of nitrogen in vanadium and vanadium-based alloys as a function of nitrogen concentration and Ru alloying.