P. Theron et al., Degradation of phenyltrifluoromethylketone in water by separate or simultaneous use of TiO2 photocatalysis and 30 or 515 kHz ultrasound, PCCP PHYS C, 1(19), 1999, pp. 4663-4668
TiO2 photocatalysis and ultrasound are emerging technologies for the minera
lization of pollutants in water. To further investigate these technologies
and to assess whether advantages and synergy can be expected from their dif
ferences, phenyltrifluoromethylketone (PTMK) was selected as a test compoun
d for pollutants generating CF3COOH, an undesirable final product. The PTMK
first-order removal rate constant k was ca. 14 times higher when the ultra
sound frequency was 515 kHz instead of 30 kHz for the same energy, and ca.
2.5 times higher when a TiO2 sample we synthesized was used instead of TiO2
Degussa P25. On simultaneous photocatalytic and ultrasonic treatment an in
crease in k by a factor between 1.4 and 1.9, depending on the TiO2 sample,
was observed at 30 kHz but not at 515 kHz. On the basis of catalase enzymat
ic effect upon k, these observations are tentatively explained by a photoca
talytic OH. radical production from sonochemically formed H2O2, provided th
at the H2O2 residence time on TiO2 is sufficient. PTMK ultrasonic pyrolysis
was demonstrated by product analysis. The amount of CF3COOH was ca. 8 time
s lower in sonicated solutions than in UV-irradiated TiO2 suspensions, for
both frequencies and both TiO2 samples. Therefore, because of a higher k va
lue, a high frequency ultrasonic (pre)treatment is preferable to minimize C
F3COOH formation.