Industrial & Engineering Chemistry Research, Vol.41, No.20, 4957-4964, 2002
Sonochemical oxidation of carbon disulfide in aqueous solutions: Reaction kinetics and pathways
The kinetics of sonochemical oxidation of CS2 and the effects of process parameters (e.g., concentration, pH, temperature, ultrasonic intensity, irradiation medium, dissolved gas and time, etc.) on the degradation rates and product distributions were studied in a batch reactor at 20 kHz. Sonochemical oxidation was found to decrease with an increase in the solution temperature, and the reaction rate order was dependent on the temperature (T) range studied: zero-order at T : 10 degreesC [with rate constants of (0.66-3.68) X 10(-5) M min(-1)]and first-order at T less than or equal to 5 degreesC (with rate constants of 0.037-0.266 min(-1)). From Arrhenius law, k = A exp(E-A/RT), the activation energy, E-A, for the zero-order degradation Of CS2 in the presence of air as the irradiating gas was found to be 7.2 kJ/mol at the higher temperatures compared to 28.7 kJ/mol for the first-order degradation at the lower temperatures. Sonochemical oxidation pathways leading to sulfate formation are discussed. The results of this study suggest that the ultrasonic degradation of CS2 might provide an environmentally conscious method for the control of this hazardous pollutant in industrial wastewater.