Collection of Czechoslovak Chemical Communications - digital archive 

Abstract

The uncatalyzed system BrO₃^--phenol-H₂SO₄ exhibits an astonishing variety of dynamic behaviour, including sequential oscillations in a closed, stirred batch reactor. The effect of initial addition of chloride and bromide ions on a sequential oscillating system has been studied. Various results were obtained, depending on the initial chloride and bromide concentrations. Increasing the concentration of chloride ions (from 5 × 10^-5 to 6 × 10^-4 mol dm^-3), the parameters of sequential oscillations changed. The number of first oscillations increased from 4 to 21 and their amplitude decreased. The duration of the non-oscillatory period and the number of second oscillations decreased from 96 to 26 min and from 8 to 1, respectively. In the concentration range 3.5 mmol dm^-3 < [Br^-]_o < 8.0 mmol dm^-3, the system displays a dual-frequency, dual-amplitude and aperiodic oscillations with a transition period between high- and low-frequency oscillations. The induced oscillations were also observed when the system was perturbed by chloride or bromide ions. The oxidation of pyrocatechol with bromate is an autocatalytic reaction; the rate constants corresponding to the uncatalyzed and catalyzed reactions were evaluated and used in numerical simulations.

Keywords: Uncatalyzed bromate oscillator; Sequential oscillations; Phenol; Pyrocatechol; Autocatalysis.

References: 32 live references.