Nature and mechanism of oxidation reactions occurring during coal chlorination

The activity pattern of potassium carbonate-containing coal char during gasification with low pressures of steam, is shown to consist of at least three stages of activity. The relative importance of these stages, that occur at different burn-off levels, is influenced by the pretreatment temperature,

## Abstract The kinetics and mechanism of gas‐phase propylene oxide (PPO) reactions were studied in a 142‐L reaction chamber by long‐path Fourier transform infrared spectroscopy at atmospheric pressure and 298 K. Rate coefficients for the reaction of PPO with ozone (O~3~), chlorine atoms (Cl), and

The chlorine evolution reaction was investigated on several oxide electrodes. The active site on the electrode surface is concluded to be the metal site, based on the dependence of the anodic current on pH of the electrolyte. The reaction mechanism can be determined by the d-electron configuration i

The conditions that favor the formation of nitrous oxide from char under fluidized bed combustion conditions are shown to be the oxidation of the char to make the nitrogen bound in the heterocyclic rings accessible so that it can react heterogeneously either with oxygen to form NO or with nitric oxi