Oxidation of NO to NO₂ Using the Ozonization Method for the Improvement of Selective Catalytic Reduction

Abstract

Removal of nitrogen oxides (NO_x) using an ozonization and catalysis hybrid process was investigated. The role of the ozonization in the hybrid process is to increase NO₂ content by oxidizing a part of NO, thereby leading to improving the performance of the catalytic reduction. It was found that the rate of the oxidation of NO to NO₂ in the ozonization chamber was very fast in a temperature range of 443 to 473 K, almost completed in a few tens of milliseconds. The decomposition of ozone into molecular oxygen was not significant, and one mole of ozone approximately reacted with one mole of NO. In addition, a kinetic study revealed that the ozonization method produces a negligible amount of byproducts such as NO₃ and N₂O₅. The effect of the content of NO₂ in NO_x on the catalytic reduction efficiency was examined by adjusting the degree of NO oxidation in the ozonization chamber. The selective reduction of NO_x to N₂ by a monolithic catalyst (V₂O₅-WO₃/TiO₂) was largely enhanced when the content of NO₂ was equal to that of NO, indicating that the mixture of NO and NO₂ reacts faster than NO.