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W1997585774 abstract "• A CFD–DEM model is developed for simulations on complex geometries. • DEM is coupled with ANSYS/Fluent Eulerian multiphase model. • The current model is validated against a series of typical fluidization cases. CFD–Discrete Element Method (DEM) model is an effective approach for studying dense gas–solid flow in fluidized beds. In this study, a CFD–DEM model for complex geometries is developed, where DEM code is coupled with ANSYS/Fluent software through its User Defined Function. The Fluent Eulerian multiphase model is employed to couple with DEM, whose secondary phase acts as a ghost phase but just an image copy of DEM field. The proposed procedure preserves phase conservation and ensures the Fluent phase-coupled SIMPLE solver work stable. The model is used to simulate four typical fluidization cases, respectively, a single pulsed jet fluidized bed, fluidized bed with an immersed tube, fluidization regime transition from bubbling to fast, and a simplified two-dimensional circulating fluidized bed loop. The simulation results are satisfactory. The present approach provides an easily implemented and reliable method for CFD–DEM model on complex geometries." @default.
W1997585774 created "2016-06-24" @default.
W1997585774 creator A5072121801 @default.
W1997585774 creator A5089768181 @default.
W1997585774 creator A5091070290 @default.
W1997585774 date "2013-11-01" @default.
W1997585774 modified "2023-10-04" @default.
W1997585774 title "Development and test of CFD–DEM model for complex geometry: A coupling algorithm for Fluent and DEM" @default.
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W1997585774 doi "https://doi.org/10.1016/j.compchemeng.2013.07.006" @default.
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