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 main topic of this study is the experimental measurement and mathematical modelling of global ga...
Gas dispersion in stirred vessels has been investigated numerically. In order to make the fiow tract...
Abstract: In order to optimize and design new bubbly flow reactors, it is necessary to predict the b...
Mass transfer has been investigated in a gas-liquid stirred reactor by considering the absorption of...
The prediction of turbulent gas–liquid systems, and in general of multiphase flows, has been histori...
Bubble columns are widely used as multiphase reactors for gas-liquid reactions in industrial applica...
In this paper, we have presented a comprehensive analysis of the development of flow pattern in a bu...
In order to optimize and design new bubbly flow reactors, it is necessary to predict the bubble beha...
Industrial bubble columns generally operate under the so-called heterogeneous regime and with high g...
Different industrial scale dispersed gas-liquid systems can be successfully described by considering...
Prediction of bubble size distribution is of paramount importance for the study of bubble column rea...
Reactive gas-liquid processes can have very complex behavior. For example, we showed recently that t...
The main topic of this study is the experimental measurement and mathematical modelling of global ga...
The description of the fluid-dynamics and of mass transfer in gas-liquid systems requires the evalua...
The simulation of bubble column reactors under industrial operating conditions is an exciting challe...
The main topic of this study is the experimental measurement and mathematical modelling of global ga...
Gas dispersion in stirred vessels has been investigated numerically. In order to make the fiow tract...
Abstract: In order to optimize and design new bubbly flow reactors, it is necessary to predict the b...
Mass transfer has been investigated in a gas-liquid stirred reactor by considering the absorption of...
The prediction of turbulent gas–liquid systems, and in general of multiphase flows, has been histori...
Bubble columns are widely used as multiphase reactors for gas-liquid reactions in industrial applica...
In this paper, we have presented a comprehensive analysis of the development of flow pattern in a bu...
In order to optimize and design new bubbly flow reactors, it is necessary to predict the bubble beha...
Industrial bubble columns generally operate under the so-called heterogeneous regime and with high g...
Different industrial scale dispersed gas-liquid systems can be successfully described by considering...
Prediction of bubble size distribution is of paramount importance for the study of bubble column rea...
Reactive gas-liquid processes can have very complex behavior. For example, we showed recently that t...
The main topic of this study is the experimental measurement and mathematical modelling of global ga...
The description of the fluid-dynamics and of mass transfer in gas-liquid systems requires the evalua...
The simulation of bubble column reactors under industrial operating conditions is an exciting challe...
The main topic of this study is the experimental measurement and mathematical modelling of global ga...
Gas dispersion in stirred vessels has been investigated numerically. In order to make the fiow tract...
Abstract: In order to optimize and design new bubbly flow reactors, it is necessary to predict the b...