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Figure Captions Figure 1. Unit cell of faujasite-type (X and Y) zeolites including cation sites. Figure 2. Adsorption isotherms for N2, O2 and Ar measured at 25 C for Li94.5Na1.5-X- 1.0 dehydrated in vacuo at 350 C. Figure 3. Adsorption isotherms measured at 25 C for N2, O2 and Ar on Ag95.7Na0.3-X- 1.0 dehydrated in vacuo at 450 C. Figure 4. N2 adsorption isotherm, measured at 25 C, for Lix Agy-X-1.0 zeolites dehydrated in vacuo at 450 C. This shows that the addition of increasing amounts of Ag results in a change in the general aspect of isotherm toward that of the nearl fully Ag+- exchanged material. The amount adsorbed is given in mmol/g. Figure 5. N2 adsorption isotherm, measured at 25 C, for Lix Agy-X-1.0 zeolites dehydrated in vacuo at 450 C. This shows that the addition of increasing amounts of Ag results in a change in the general aspect of isotherm toward that of the nearl fully Ag+- exchanged material. The amount adsorbed is given in molec/uc. Figure 6. Plots of ln(P) vs 1/T at different coverages for Li94.5Na1.5-X-1.0 (top) and Li94.2Na0.7Ag1.1-X-1.0 (bottom). Figure 7. Isosteric heats of adsorption of N2 for Ag96-X-1.0, Li94.5Na1.5-X-1.0 and Li94.2Na0.7Ag1.1-X-1.0. Figure 8. N2 and O2 isotherms for Li94.2Na0.7Ag1.1-X-1.0 dehydrated in vacuo at 450 C and for for Li94.5Na1.5-X-1.0 dehydrated in vacuo at 350 C. All isotherms were measured at 25 C. 76PDF Image | PSA USING SUPERIOR ADSORBENTS
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