Abstract
Publisher Summary This chapter examines the effects of additive nitrous oxide (NO) and oxygen (O 2 ) concentration and the effects of carbon monoxide (CO) and hydrogen (H 2 ) in the coal-gasified fuel on the decomposition characteristics of ammonia (NH 3 ) and NO using the tubular flow reactor and by numerical analysis based on reaction kinetics. The optimum concentration of additive NO exists, by which remaining thin-film nanocomposite (TFN) after reacting under the reaction temperature of 1,000 °C is made minimum. When O 2 is added by 5,000 ppm with this coal-gasified fuel that contains NH 3 by 1,000 ppm, this optimum additive NO concentration is 1,000 ppm. This technique decreases the TFN by about 40% by adding 5,000 ppm of O 2 and1,000 ppm of NO to the coal-gasified fuel that contains NH 3 by 1,000ppm under the reaction temperature of 1,000 °C. The decomposition ratios of NH 3 and NO decrease as the H 2 concentration increases.
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