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• W1505371424 abstract "The occurrence of clusters is one of the most characteristic features of dense gas-solid flow in the riser section of a Circulating Fluidized Bed (CFB). The existence of such clusters has a profound influence on the performance of a CFB unit as a chemical reactor. It is therefore of great importance to gain more insight into this phenomenon. Although the existence of clusters (regions of locally higher solid fraction) in dense riser flow is well accepted in the chemical engineering community, a clear definition is still lacking (Chen, 1995). Clusters were observed experimentally by (among many others) Horio and Kuroki (1994) using a laser sheet technique. They found that the clusters had a characteristic parabolic shape. Tsuo and Gidaspow (1990) used a Two-Fluid approach with constant solids viscosity in order to simulate the riser section of a CFB. They reported the formation of cluster-like structures as well as the typical core-annulus flow structure where the average solids concentration is considerably higher near the wall. Other Two-Fluid approaches incorporating the kinetic theory of granular flow (Sinclair and Jackson (1990), Nieuwland et al. (1996)) did not focus particularly on cluster formation but more on the radial segregation of solids. This type of model possesses a peculiar dependency on the magnitude of the coefficient of restitution where a small deviation from unity causes the flow structure to change completely while the agreement with experimental findings deteriorates. This was (among others) pointed out by Hrenya and Sinclair (1997) who also reported that when particle phase turbulence was included this dependency became far less pronounced. Tanaka et al. (1996) performed simulations of gas-solid flow in a vertical duct using the Lagrangian approach for the solid particles. They employed the Direct Simulation Monte Carlo (DSMC) method to describe the particle dynamics. In this DSMC method the simulated particles actually represent a certain number of ‘real‘ particles. A Monte Carlo procedure is invoked to determine the collision partners and the geometry of the collision. Hence this method does not account for actual particle-particle and particle-wall interaction in a direct way. Moreover the modified Nanbu method used in their work does not guarantee exact conservation of energy (Frezzotti, 1997) which can be an important drawback especially since the collision parameters turned out to be of key importance in their simulations. In this paper we present an extension of our Eulerian Lagrangian simulation technique (Hoomans et al. (1996)) for dense gas-solid two-phase flow in a riser which features a direct incorporation of the particle-particle and particlewall interaction." @default.
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• W1505371424 date "1998-01-01" @default.
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• W1505371424 title "Granular dynamics simulation of cluster formation in dense riser flow" @default.
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