A CATALYTICALLY HIGHLY-ACTIVE, ARSENIC OXIDE RESISTANT V-MO-O PHASE -RESULTS OF STUDYING INTERMEDIATES OF THE DEACTIVATION PROCESS OF V2O5-MOO3-TIO2 (ANATASE) DENOX CATALYSTS
E. Hums, A CATALYTICALLY HIGHLY-ACTIVE, ARSENIC OXIDE RESISTANT V-MO-O PHASE -RESULTS OF STUDYING INTERMEDIATES OF THE DEACTIVATION PROCESS OF V2O5-MOO3-TIO2 (ANATASE) DENOX CATALYSTS, Research of chemical intermediates, 19(5), 1993, pp. 419-441
Investigations into the poisoning effect of As2O3 on V2O5-MoO3 mixture
s have diverted the development of DeNOx catalysts to a V-Mo-O phase w
hich is dispersed on TiO2 (anatase) and favorably influences both the
selectivity (k(NOx) and k(SOx) values) and the lifetime of the catalys
t. These advantages over systems which are obtained by formation of a
monomolecular dispersion of V2O5 and MoO3 on TiO2 (anatase) are shown
by the new catalyst generation (TiO2-Mo-V oxide catalyst), in particul
ar in flue gases containing arsenic oxides downstream of slag tap furn
aces.