Abstract
In this study, we examined the experimental catalytic oxidation of gaseous monochlorobenzene (MCBz) with O 3 over Fe 2O 3 in a packed bed reactor to investigate the feasibility of economical low temperature decomposition at a high space velocity (SV). We investigated the effects of several reaction parameters (temperature, O 3 concentration, and SV) on the MCBz oxidation. At 150 °C, the conversion of MCBz over Fe 2O 3 in the absence of O 3 was only 3%; it increased to 91% over Fe 2O 3 in the presence of 1200 ppm of O 3 at a high SV of 83 s −1. A long-term operation study revealed that the conversion of MCBz was stable for more than 96 h. In the steady state, the carbon and chlorine balances were 88% and 86%, respectively. Applying a Langmuir–Hinshelwood kinetic model, we estimated an activation energy of 16.7 kJ mol −1 for MCBz oxidation over Fe 2O 3 in the presence of O 3.
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