Kinetics of Ibuprofen Degradation in Aqueous Solution by the Action of Dielectric-Barrier Discharge in Oxygen

The kinetic features of the degradation of ibuprofen (IBU) in its aqueous solution by the action of atmospheric-pressure dielectric-barrier discharge in an oxygen stream have been studied. The range of concentrations was (8.6–42.8) mg/L, and the range of power input to the discharge was (7–57) W. It...

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Bibliographic Details
Published in:High energy chemistry 2024-02, Vol.58 (1), p.153-157
Main Authors: Izvekova, A. A., Gushchin, A. A., Ivanova, P. A., Kvitkova, E. Yu, Ignatiev, A. A., Rybkin, V. V.
Format: Article
Language:English
Subjects:
Aldehydes
Aqueous solutions
Carboxylic acids
Chemistry
Chemistry and Materials Science
Degradation
Dielectric barrier discharge
Ibuprofen
Nonsteroidal anti-inflammatory drugs
Oxygen
Physical Chemistry
Plasma Chemistry
Rate constants
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Summary:The kinetic features of the degradation of ibuprofen (IBU) in its aqueous solution by the action of atmospheric-pressure dielectric-barrier discharge in an oxygen stream have been studied. The range of concentrations was (8.6–42.8) mg/L, and the range of power input to the discharge was (7–57) W. It has been found that the degradation process is formally described by the first-order rate equation in ibuprofen concentration. Degradation rates, effective degradation rate constants, and degrees of destruction have been determined. At a fixed discharge power, the constants do not depend on the initial concentration of the solution. Typical values of the rate constants are ~(0.2–0.7) s −1 . Based on these data, energy yields and degrees of degradation at various discharge powers (discharge currents) have been calculated. The energy yields of degradation are in the range of (4–9) × 10 −3 molecule per 100 eV of input energy, with the degree of degradation reaching 100%. It has been found that carboxylic acids and aldehydes are formed as a result of IBU degradation.
ISSN:0018-1439
1608-3148
DOI:10.1134/S0018143924010077