F. Podenzani scite author profile

Local gas hold-up and bubbles size distributions have been modeled and validated against experimental data in a stirred gas-liquid reactor, considering two different spargers. An Eulerian multifluid approach coupled with a population balance model (PBM) has been employed to describe the evolution of the bubble size distribution due to break-up and coalescence. The PBM has been solved by resorting to the quadrature method of moments, implemented through user defined functions in the commercial computational fluid dynamics code Fluent v. 6.2. To overcome divergence issues caused by moments corruption, due to numerical problems, a correction scheme for the moments has been implemented; simulation results prove that it plays a crucial role for the stability and the accuracy of the overall approach. Very good agreements between experimental data and simulations predictions are obtained, for a unique set of break-up and coalescence kinetic constants, in a wide range of operating conditions.

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Simulation of coalescence, break-up and mass transfer in a gas–liquid stirred tank with CQMOM

Petitti

Vanni

Marchisio

et al. 2013

Chemical Engineering Journal

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Effect of Drag Modeling on the Prediction of Critical Regime Transitions in Agitated Gas-Liquid Reactors With Bubble Size Distribution Modeling

et al. 2009

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Development of an Integrated Approach to the Risk Analysis of a Blow-out Accident

Blotto¹,

Bonuccelli²,

Morale³

et al. 2004

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F. Podenzani

Bubble size distribution modeling in stirred gas–liquid reactors with QMOM augmented by a new correction algorithm

Simulation of coalescence, break-up and mass transfer in a gas–liquid stirred tank with CQMOM

Effect of Drag Modeling on the Prediction of Critical Regime Transitions in Agitated Gas-Liquid Reactors With Bubble Size Distribution Modeling

Development of an Integrated Approach to the Risk Analysis of a Blow-out Accident

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