Pressure-induced reduction of shielding for improving sonochemical activity

Maikel M. Van Iersel; Jean Paul A.J. Van Den Manacker; Nieck E. Benes; Jos T.F. Keurentjes

doi:10.1021/jp070635l

Pressure-induced reduction of shielding for improving sonochemical activity

Maikel M. Van Iersel^*, Jean Paul A.J. Van Den Manacker, Nieck E. Benes, Jos T.F. Keurentjes

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

15 Citations (Scopus)

Abstract

The effect of hydrostatic pressure on chemical reactions induced by 20 kHz ultrasound has been studied using three different methods: the oxidation of potassium iodide, bubble cloud visualization studies, and sound attenuation measurements. The latter two have demonstrated that shielding of the ultrasonic wave is less pronounced at elevated pressures. Accordingly, the yield of iodine liberation increases with increasing pressure. At high static pressures, however, the less efficient cavitation dynamics dominate and the chemical reactivity decreases rapidly.

Original language	English
Pages (from-to)	3081-3084
Number of pages	4
Journal	Journal of Physical Chemistry B
Volume	111
Issue number	12
DOIs	https://doi.org/10.1021/jp070635l
Publication status	Published - 29 Mar 2007
Externally published	Yes

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10.1021/jp070635l

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abstract = "The effect of hydrostatic pressure on chemical reactions induced by 20 kHz ultrasound has been studied using three different methods: the oxidation of potassium iodide, bubble cloud visualization studies, and sound attenuation measurements. The latter two have demonstrated that shielding of the ultrasonic wave is less pronounced at elevated pressures. Accordingly, the yield of iodine liberation increases with increasing pressure. At high static pressures, however, the less efficient cavitation dynamics dominate and the chemical reactivity decreases rapidly.",

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AU - Van Den Manacker, Jean Paul A.J.

AU - Benes, Nieck E.

AU - Keurentjes, Jos T.F.

PY - 2007/3/29

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AB - The effect of hydrostatic pressure on chemical reactions induced by 20 kHz ultrasound has been studied using three different methods: the oxidation of potassium iodide, bubble cloud visualization studies, and sound attenuation measurements. The latter two have demonstrated that shielding of the ultrasonic wave is less pronounced at elevated pressures. Accordingly, the yield of iodine liberation increases with increasing pressure. At high static pressures, however, the less efficient cavitation dynamics dominate and the chemical reactivity decreases rapidly.

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ER -

Pressure-induced reduction of shielding for improving sonochemical activity

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