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Prediction of Residence Times with non-Prescribed Material Flow

DOI 10.1615/hedhme.a.000335

3.13.6 Prediction of residence times with nonprescribed material flow

In some cases the product flow through the dryer is more or less nonuniform. This is true for the continuous fluidized-bed dryer as described in Section 334, class II(c). As a consequence of the perfect product back mixing, there is a residence time distribution of the individual particles between zero and infinity with a most probable residence time R = of the order of

\[\label{eq1} \bar{t}_{R}=\frac{{V}_{s}}{\dot{V}_{s}}\tag{1}\]

where Vs is the solid holdup of the fluid bed and s is the solid throughput. Some particles will leave the dryer still entirely wet and some others will already be overdried. There is a moisture distribution among the particles leaving the dryer according to the residence time distribution. The nonuniform drying occurring as a result of the nonuniform residence time is a principal disadvantage of those types of dryers. One method to reduce this nonuniformity is to split the whole dryer into a number of stages.

In a spray dryer, as near as possible, uniform droplet size should be arranged, whereas in a rotary dryer, back mixing should be avoided as far as possible. In general, each type of dryer has its own residence time distribution, which must be determined in individual large-scale experiments.

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