Title of article
A population balance model of the particle inventory in a fluidized-bed reactor/regenerator system
Author/Authors
Werther، نويسنده , , Joachim and Hartge، نويسنده , , Ernst-Ulrich، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
10
From page
113
To page
122
Abstract
A population balance model has been formulated to simulate the time-dependent behavior of the catalyst inventory of a fluidized-bed reactor/regenerator loop. The reactor is operated in the circulating fluidized bed regime while the regenerator operates in the bubbling bed mode. Both reactor and regenerator are equipped with cyclones for solids recovery. The model considers attrition from various sources, i.e., from grid jets, bubble action in the fluidized bed and inside the cyclones.
mulation calculations demonstrate the strong interaction between attrition and efficiency of the solids recovery. A high efficiency of the solids recovery and at the same time a low rate of attrition requires a special design and arrangement of the cyclones. The time-dependent simulations reveal that it takes a considerable time for the system to reach a steady state. The catalyst loss rate from the system stabilizes after roughly 1 week but the Sauter diameter of the catalyst inventory in the loop needs about 3 weeks before a steady state is reached under the conditions investigated.
Keywords
Riser , Regenerator , fluidized bed , Population balance , cyclone , Catalyst
Journal title
Powder Technology
Serial Year
2004
Journal title
Powder Technology
Record number
1695185
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