We report for the first time an investigation on the catalytic behavior of protonated clinoptilolite zeolite
in propane-SCR-NOx. The protonated Iranian clinoptilolite zeolite shows a promising performance for NOx
abatement via selective catalytic reduction by propane. Maximum activity (72% conversion of NOx to N2)
is achieved at 450 C at a low GHSV of 20,280 h1
. Size dependency of the nitrogen production reaction
rate is insignificant for particle sizes equal or smaller than 500 lm. A Hinshelwood–Langmuir type
reaction mechanism has been proposed that predicts satisfactorily the NO2/NO mixture conversion rate
in the temperature range of 300–400 C as a function of NO2 and NO concentration and reaction
temperature for an GHSV in the range of 27,000–30,400 h1
. Kinetic analysis was performed based on
the data obtained by an integral reactor system. The activation energy of the surface catalyzed reactions
proposed has been calculated in the range of 43–51 kJ mol1
.