Catalytic NOx reduction by carbon supporting transition metals (Fe, Co, Ni,
Cu) and potassium has been studied. The effect of oxygen on the catalytic
properties of the metals has been analyzed. Temperature-programmed reaction
s and isothermal reactions have been conducted in a fixed bed flow reactor.
Temperature-programmed reduction in hydrogen, XRD and XPS have been used t
o characterize the catalysts. All the metals studied catalyze the NOx reduc
tion by carbon in the presence of oxygen, but also the O-2-carbon reaction.
Metal catalytic activity is the result of two factors, the tendency of the
metal to be oxidized by NO and the easiness of the resulting oxide to be r
educed by carbon. Among the metals studied, nickel exhibits the highest sel
ectivity for NOx reduction.
The results of this study strengthen the possible benefit of the lack of a
gaseous reducing agent (such as ammonia or hydrocarbons) since the reductio
n of NOx is performed by the carbon support itself. (C) 1999 Elsevier Scien
ce B.V. All rights reserved.