PREDICTION OF GAS VOLUME FRACTION IN FULLY-DEVELOPED GAS-LIQUID FLOW IN A VERTICAL PIPE
35th Annual CNS Conference - 2015 May 31 - June 3


Presented at:
35th Annual CNS Conference
2015 May 31 - June 3
Location:
Saint John, Canada
Session Title:
1A3 -Thermalhydraulics

Authors:
A. S. M. A. Islam (University of Saskatchewan)
N. A. Adoo (University of Saskatchewan)
D. J. Bergstrom (University of Saskatchewan)
D. F. Wang (Canadian Nuclear Laboratories)
  

Abstract

An Eulerian-Eulerian two-fluid model has been implemented for the prediction of the gas volume fraction profile in turbulent upward gas-liquid flow in a vertical pipe. The two-fluid transport equations are discretized using the finite volume method and a low Reynolds number k-ε turbulence model is used to predict the turbulence field for the liquid phase. The contribution to the effective turbulence by the gas phase is modeled by a bubble induced turbulent viscosity. For the fully-developed flow being considered, the gas volume fraction profile is calculated using the radial momentum balance for the bubble phase. The model potentially includes the effect of bubble size on the interphase forces and turbulence model. The results obtained are in good agreement with experimental data from the literature. The one-dimensional formulation being developed allows for the efficient assessment and further development of both turbulence and two-fluid models for multiphase flow applications in the nuclear industry.

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