COMPARISON OF CATALYZED AND HOMOGENEOUS REACTIONS OF HYDROCARBONS FORSELECTIVE CATALYTIC REDUCTION (SCR) OF NOX

When NO2 (0.21% in He) was passed over CoZSM-5 or HZSM-5 at SVH = 45,0 00 h(-1), equlibrium with NO + O-2 was approached at temperatures abov e 673 K. The reactions of NO2 + CH4 NO2 + CH4 + O-2, and NO + CH4 + O- 2 were compared over these catalysts and in the empty reactor. The lat ter two reactions yielded essentially identical results when catalyzed , as did NO2 + CH4 up to about 22% conversion of CH4, i.e., to the poi nt where the oxygen supply became exhausted. Without added O-2, NO app eared as a reduction product of NO2 along with N-2. In the empty react or, no N-2 was formed although NO2 could be quantitatively reduced to NO; combustion of CH4 with O-2 (or with NO) alone was not observed at temperatures less than 873 K, but light-off with NO2 or NOx + O-2 occu rred at about 723 K. In the absence of O-2, the homogeneous CH4 conver sion was limited to about 22% at 873 K where the conversion of NO2 to NO reached 100%. With added O-2, conversion of CH4 reached 62% at 873 K and approached 100% under more severe conditions. These data illustr ate the key role played by NO2 in the selective catalytic reduction re action. They also show that a catalyst is necessary for the formation of N-2 and emphasize the importance of O-2 in maintaining an adequate supply of NO2, particularly at temperatures above 800 K where equilibr ium favors NO. When C3H8 or i-C4H10 was substituted for CH4, the order of reactivity was i-C4H10 > C3H8 > CH4 in both the catalyzed and the homogeneous reactions. Moreover, in the empty reactor dehydrogenation to the corresponding olefins was found to be important with the former two; the mass balance did not close with CH4, possibly due to the for mation of formaldehyde. (C) 1995 Academic Press, Inc.