THE SELECTIVE NONCATALYTIC REDUCTION OF NITRIC-OXIDE USING AMMONIA ATUP TO 15-PERCENT OXYGEN

Selective non-catalytic reduction of nitric oxide (NO) using ammonia w as studied with up to 15 % (by volume) oxygen at 102 kPa. The experime nts were conducted in an electrically heated laminar-flow, quartz reac tor using mixtures of N-2, O-2, NO, and CO to simulate exhaust gas. Th e base case condition included 330 ppmv of NO, 495 ppmv of NH3, and 15 % O-2. At a reactor temperature of 1050 K, 77% of the NO was removed. For a lower oxygen concentration of 1%, the NO removal was as high as 98% at 1100 K. The degraded performance at high oxygen concentrations is attributed to increases in the oxidation reactions. A major result of this work was the quantification of the amount of N2O in the treate d gases. For the base case conditions, 21 ppmv of N2O was measured for a reactor temperature of 1075 K. Increasing the ratio of NH3 to NO (b y increasing the NH3 concentration) increased the maximum NO removal a nd decreased the temperature at which this level of NO removal was ach ieved. For the higher NH3 concentrations, however, the N2O concentrati on increased to as high as 54 ppmv. The oxidation products of ammonia (in the absence of NO) for these conditions were found to include firs t N2O beginning at 900 K and then NO beginning at 1050 K. Comparisons between these experimental results and predictions from the Miller and Bowman (1989) model indicate that further enhancements of the model m ay be necessary to incorporate the features of high oxygen conditions.