Abstract | dc.description.abstract | The effect of surface area of copper/zirconia adsorbents on the adsorption of thiophene (T) and dibenzothiophene
(DBT) was studied. Adsorbents were prepared with different loads of copper (1–6%), using
as support zirconias with different surface areas, obtained by varying the calcination temperature. Lower
calcination temperatures allowed obtaining zirconias with higher surface area, but lower crystallinity. The
characterization results showed that high surface area zirconias have greater copper dispersion capacity,
being the zirconia calcined at the lower temperature, the only able to completely disperse a load of 6%
Cu, i.e., Z-300 surface has only highly dispersed copper species, while zirconias with higher calcination
temperature have also bulk CuO species. The adsorption capacity of T or DBT on Cu/ZrO2 increased with
copper content, reaching a maximum, which coincides remarkably with the zirconia dispersion capacity.
This result indicates that dispersed copper species, in Cu1+ state, are responsible for the adsorption of
these sulfur organic compounds. Therefore the best adsorption capacities were obtained in adsorbents
with high content of such copper species, and these adsorbent can be prepared with high surface area
ZrO2, that is with high dispersion capacity of copper. | es_CL |