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Mathematical modeling axial hydrodynamics

On the basis of the observations in the macroscale, the flow of a fast fluidized bed can be represented by the core-annulus flow structure in the radial direction, and coexistence of a bottom dense region and a top dilute region in the axial direction. Particle clusters are an indication of the heterogeneity in the mesoscale. A complete characterization of the hydrodynamics of a CFB requires the determination of the voidage and velocity profiles. There are a number of mathematical models accounting for the macro- or mesoaspects of the flow pattern in a CFB that are available. In the following, basic features of several types of models are discussed. [Pg.447]

In order to describe adequately the hydrodynamics of the experimental fixed bed reactor, it is necessary to take into account the axial dispersion in the mathematical model. The time dependent continuity equation including axial dispersion for a fixed bed reactor is given by a partial differential equation (pde) of the parabolic/hyperbolic class. These types of pde s are difficult to solve numerically, resulting in long cpu times. A way to overcome these difficulties is by describing the fixed bed reactor as a cascade of perfectly stirred tank reactors. The axial dispersion is then accounted for by the number of tanks in series. For a low degree of dispersion (Bo < 50) the number of stirred tanks, N, and the Bodenstein number. Bo, are related as N Bo/2 [8].The fixed bed reactor is now described by a system of ordinary differential equations (ode s). No radial gradients are taken into account and a onedimensional model is applied. Mass balances are developed for both the gas phase and the adsorbed phase. The reactor is considered to be isothermal. [Pg.329]

The mathematical description of a fluid kinetics of the scrubber, allowing defining profiles an axial and peripheral component of speed of a gas stream Is offered. The model reflects essential features of the twirled motion of phases in characteristic hydrodynamic zones of the apparatus. [Pg.133]

See other pages where Mathematical modeling axial hydrodynamics is mentioned: [Pg.262]    [Pg.336]    [Pg.340]    [Pg.147]    [Pg.116]    [Pg.151]    [Pg.584]   
See also in sourсe #XX -- [ Pg.189 ]



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