Reducibility, heats of re-oxidation, and structure of vanadia supported on TiO2 and TiO2-Al2O3 supports used as vanadium traps in FCC
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V/TiO2 and V/TiO2-Al2O3 (1:1 w/w basis) supports were characterized by TPR, Raman spectroscopy, and heats of re-oxidation of samples pre-reduced in CO at 770 K with a heat-flow calorimeter. Supports were pure anatase or rutile dispersed with hydrated aluminas (boehmite, gibbsite, bayerite) subsequently calcined at 870 K. Raman spectroscopy of fully oxidized, air-exposed samples show the presence of polymeric polyvanadate species, but not of isolated monomeric species. Sample loadings were 4 wt.%25 and show different reduction and structural features. During TPR, vanadia reduced to V(III) and V(IV) in V/rutile and V/anatase, respectively, and multiple reduction peaks were observed due to crystalline V2O5 and amorphous vanadia. In V/TiO2-Al 2O3 samples, vanadium coverages were 6-8 μmol V m -2 yielding well-dispersed, amorphous vanadia. Trends observed during TPR were: addition of bayerite phase to anatase or rutile increases H 2 consumption by 100%25, implying formation of V(III) and V(II), respectively. However, with addition of boehmite or gibbsite to either titania phase, vanadia reduces only to V(IV). Oxygen doses at 473 K of pre-reduced samples titrated about one-third of total vanadia content. Re-oxidation heat values range from 400 to 500 kJ mol-1 O2 and represent oxygen-vanadium ion bond strengths within the dispersed vanadia. The heat values are higher than expected for re-oxidation of a bulk phase, and are indicative of the degree of stabilization provided by the support. © 2005 Elsevier B.V. All rights reserved.
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Alumina; Calorimetry; Titania; Titania-alumina; TPR; Vanadia Bond strength (chemical); Calorimetry; Catalysts; Gasoline; Microporosity; Raman spectroscopy; Regenerators; Titanium; Transition metals; Anatase; Dispersed layers; Heats of re-oxidation; Hydrated aluminas; Titania-alumina; Vanadium compounds
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