JC Jaap Schouten scite author profile

The physics and chemistry of nonlinearly oscillating acoustic cavitation bubbles are strongly influenced by the dissolved gas in the surrounding liquid. Changing the gas alters among others the luminescence spectrum, and the radical production of the collapsing bubbles. An overview of experiments with various gas types and concentration described in literature is given and is compared to mechanisms that lead to the observed changes in luminescence spectra and radical production. The dissolved gas type changes the bubble adiabatic ratio, thermal conductivity, and the liquid surface tension, and consequently the hot spot temperature. The gas can also participate in chemical reactions, which can enhance radical production or luminescence of a cavitation bubble. With this knowledge, the gas content in cavitation can be tailored to obtain the desired output.

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Characterization of regimes and regime transitions in bubble columns by chaos analysis of pressure signals

Letzel

Schouten

Krishna

et al. 1997

Chemical Engineering Science

193

125

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Engineering aspects of the aqueous noble metal catalysed alcohol oxidation

et al. 2000

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Gas–liquid mass transfer and axial dispersion in solid foam packings

Stemmet

Meeuwse

Schaaf

et al. 2007

Chemical Engineering Science

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Origin, propagation and attenuation of pressure waves in gas—solid fluidized beds

1998

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JC Jaap Schouten

Characterization of fluidization regimes by time-series analysis of pressure fluctuations

Comparative analysis of CFD models of dense gas–solid systems

Non-intrusive determination of bubble and slug length scales in fluidized beds by decomposition of the power spectral density of pressure time series

Dissolved gas and ultrasonic cavitation – A review

Characterization of regimes and regime transitions in bubble columns by chaos analysis of pressure signals

Engineering aspects of the aqueous noble metal catalysed alcohol oxidation

Gas–liquid mass transfer and axial dispersion in solid foam packings

Origin, propagation and attenuation of pressure waves in gas—solid fluidized beds

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