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The importance of chemical mechanisms in sonochemical modelling

Csanád Kalmár, Tamás Turányi, István Gy. Zsély, Máté Papp, Ferenc Hegedűs

2022Ultrasonics Sonochemistry46 citationsDOIOpen Access PDF

Abstract

A state-of-the-art chemical mechanism is introduced to properly describe chemical processes inside a harmonically excited spherical bubble placed in water and saturated with oxygen. The model uses up-to-date Arrhenius-constants, collision efficiency factors and takes into account the pressure-dependency of the reactions. Duplicated reactions are also applied, and the backward reactions rates are calculated via suitable thermodynamic equilibrium conditions. Our proposed reaction mechanism is compared to three other chemical models that are widely applied in sonochemistry and lack most of the aforementioned modelling issues. In the governing equations, only the reaction mechanisms are compared, all other parts of the models are identical. The chemical yields obtained by the different modelling techniques are taken at the maximum expansion of the bubble. A brief parameter study is made with different pressure amplitudes and driving frequencies at two equilibrium bubble sizes. The results show that due to the deficiencies of the former reaction mechanisms employed in the sonochemical literature, several orders of magnitude differences of the chemical yields can be observed. In addition, the trends along a control parameter can also have dissimilar characteristics that might lead to false optimal operating conditions. Consequently, an up-to-date and accurate chemical model is crucial to make qualitatively and quantitatively correct conclusions in sonochemistry.

Topics & Concepts

SonochemistryChemical reactionArrhenius equationBubbleChemical equilibriumChemical processChemistryThermodynamicsChemical reactorChemical kineticsChemical speciesReaction rate constantReaction mechanismMechanism (biology)Chemical equationMechanicsPhysical chemistryPhysicsKineticsClassical mechanicsOrganic chemistryCatalysisQuantum mechanicsActivation energyUltrasound and Cavitation PhenomenaUltrasound and Hyperthermia ApplicationsPhotoacoustic and Ultrasonic Imaging
The importance of chemical mechanisms in sonochemical modelling | Litcius