TY - JOUR
T1 - Comparative analysis of CFD models of dense gas-solid systems
AU - Wachem, van, B.G.M.
AU - Schouten, J.C.
AU - Bleek, van den, C.M.
AU - Krishna, R.
AU - Sinclair, J.L.
PY - 2001
Y1 - 2001
N2 - Many gas-solid CFD models have been put forth by academic researchers, government labs., and com. vendors. These models often differ in terms of both the form of the governing equations and the closure relations, resulting in much confusion in the literature. These various forms in the literature and in com. codes are reviewed and the resulting hydrodynamics through CFD simulations of fluidized beds compared. Exptl. data on fluidized beds of Hilligardt and Werther (1986), Kehoe and Davidson (1971), Darton et al.(1977), and Kuipers (1990) are used to quant. assess the various treatments. Predictions based on the commonly used governing equations of Ishii (1975) do not differ from those of Anderson and Jackson (1967) in terms of macroscopic flow behavior, but differ on a local scale. Flow predictions are not sensitive to the use of different solid stress models or radial distribution functions, as different approaches are very similar in dense flow regimes. The application of a different drag model, however, significantly impacts the flow of the solids phase. A simplified algebraic granular energy-balance equation is proposed for detg. the granular temp., instead of solving the full granular energy balance. This simplification does not lead to significantly different results, but it does reduce the computational effort of the simulations by about 20%.
AB - Many gas-solid CFD models have been put forth by academic researchers, government labs., and com. vendors. These models often differ in terms of both the form of the governing equations and the closure relations, resulting in much confusion in the literature. These various forms in the literature and in com. codes are reviewed and the resulting hydrodynamics through CFD simulations of fluidized beds compared. Exptl. data on fluidized beds of Hilligardt and Werther (1986), Kehoe and Davidson (1971), Darton et al.(1977), and Kuipers (1990) are used to quant. assess the various treatments. Predictions based on the commonly used governing equations of Ishii (1975) do not differ from those of Anderson and Jackson (1967) in terms of macroscopic flow behavior, but differ on a local scale. Flow predictions are not sensitive to the use of different solid stress models or radial distribution functions, as different approaches are very similar in dense flow regimes. The application of a different drag model, however, significantly impacts the flow of the solids phase. A simplified algebraic granular energy-balance equation is proposed for detg. the granular temp., instead of solving the full granular energy balance. This simplification does not lead to significantly different results, but it does reduce the computational effort of the simulations by about 20%.
U2 - 10.1002/aic.690470510
DO - 10.1002/aic.690470510
M3 - Article
SN - 0001-1541
VL - 47
SP - 1035
EP - 1051
JO - AIChE Journal
JF - AIChE Journal
IS - 5
ER -