New sorbents for olefin/paraffin separations by adsorption via π -complexation

New adsorbents for olefin/parafJin separation are synthesized by effectiue dispersion of Ag(I) and Cu(I) cations on substrates with hydrocarbon-phobic surfaces. These cations bind olefin molecules by a a-complexation bond, a weak chemical bond. Ethane/ethylene and propane/propylene separations are considered. Cation exchange resins and CuCl/y-A1203 are effectiue substrates. On the Ag(I) resin at 25°C and I atm, the equilibrium adsorption ratio,for C2H4/C2H6 = 9.2 and C2H4 capacity = 1.15 mmol/g; the corresponding values for C3H6/C3H8 = 10.4 and c3H6 capacity = 1.29 mmol/g. The CuCl/y -AI2O3 sorbent shows equally promising results. The sorption rates are pore-difision-controlled and rapid. The olefin selectivity, capacity, and rates are much higher than all previous attempts and are suitable for applications in cyclic adsorption processes.

The equilibrium data are correlated with an isothenn equation that accounts for both physical adsorption and n--complexation with energy heterogeneity, using only two true fitting parameters. Molecular orbital calculations using a C6 H5 SO; substrate indicate that the rr-complexation bond is contributed mainly by the donation of olefin rr-bond electrons to the empty s-orbital of the metal, while the d-a* back donation contributes only 16%. Moreover, the relative order of the heats of adsorption is correctly predicted.