Closure relations for CFD simulation of bubble columns

Ziegenhein, Thomas, Lucas, Dirk, Rzehak, Roland, Krepper, Eckhard

28 May 2014

This paper describes the modelling of bubbly flow in a bubble column considering non-drag forces, polydispersity and bubble induced turbulence using the Eulerian two-fluid approach. The set of used closure models describing the momentum exchange between the phases was chosen on basis of broad experiences in modelling bubbly flows at the Helmholtz-Zentrum Dresden-Rossendorf. Polydispersity is modeled using the inhomogeneous multiple size group (iMUSIG) model, which was developed by ANSYS/CFX and Helmholtz-Zentrum Dresden-Rossendorf. Through the importance of a comprehensive turbulence modeling for coalescence and break-up models, bubble induced turbulence models are investigated. A baseline has been used which was chosen on the basis of our previous work without any adjustments. Several variants taken from the literature are shown for comparison. Transient CFD simulations are compared with the experimental measurements and Large Eddy Simulations of Akbar et al. (2012).

Blasensäule

two-fluid-model

Mehrphasen

Blasenkräfte

Turbulenz

Bubble column

two-fluid model

bubble forces

bubble induced turbulence

ddc:620

ddc:621

ddc:660

ddc:530

Blasensäule

Numerische Strömungssimulation

Mehrphasenströmung

Verfahrenstechnik

Closure relations for CFD simulation of bubble columns

Ziegenhein, Thomas, Lucas, Dirk, Rzehak, Roland, Krepper, Eckhard

28 May 2014

This paper describes the modelling of bubbly flow in a bubble column considering non-drag forces, polydispersity and bubble induced turbulence using the Eulerian two-fluid approach. The set of used closure models describing the momentum exchange between the phases was chosen on basis of broad experiences in modelling bubbly flows at the Helmholtz-Zentrum Dresden-Rossendorf. Polydispersity is modeled using the inhomogeneous multiple size group (iMUSIG) model, which was developed by ANSYS/CFX and Helmholtz-Zentrum Dresden-Rossendorf. Through the importance of a comprehensive turbulence modeling for coalescence and break-up models, bubble induced turbulence models are investigated. A baseline has been used which was chosen on the basis of our previous work without any adjustments. Several variants taken from the literature are shown for comparison. Transient CFD simulations are compared with the experimental measurements and Large Eddy Simulations of Akbar et al. (2012).

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/621

ddc:621

info:eu-repo/classification/ddc/660

ddc:660

info:eu-repo/classification/ddc/530

ddc:530