Characterization of downflowing high velocity fluidized beds
A downer‐riser circulating high velocity fluidization apparatus was developed to study the fundamentals of downflowing gas‐solid particle mixtures. The acceleration and deceleration of solids due to the influences of the entrance and exit sections result in a relatively uniform axial solids distribu...
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Veröffentlicht in: | AIChE journal 2000-03, Vol.46 (3), p.515-522 |
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description | A downer‐riser circulating high velocity fluidization apparatus was developed to study the fundamentals of downflowing gas‐solid particle mixtures. The acceleration and deceleration of solids due to the influences of the entrance and exit sections result in a relatively uniform axial solids distribution. Radial solid density profiles detected with an X‐ray imaging system in the downer show the existence of a core‐annulus flow with a dilute core surrounded by a denser wall region. Local solids flux profiles were obtained with an aspirating probe device and the solid velocity profile obtained from the two measured quantities. These confirm that the majority of solids segregates in a wall region that flows faster than the dilute core region. Thus, the shorter residence time in the high‐speed downer wall region is coupled with faster reaction rates due to the accompanying high concentration of catalyst, while the dilute core has slower reaction rates with longer residence time due to the lower catalyst concentration and flow velocity. This results in much more uniform reaction extent over the cross‐sectional area of the downer and, therefore, should improve the product selectivity. |
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The acceleration and deceleration of solids due to the influences of the entrance and exit sections result in a relatively uniform axial solids distribution. Radial solid density profiles detected with an X‐ray imaging system in the downer show the existence of a core‐annulus flow with a dilute core surrounded by a denser wall region. Local solids flux profiles were obtained with an aspirating probe device and the solid velocity profile obtained from the two measured quantities. These confirm that the majority of solids segregates in a wall region that flows faster than the dilute core region. Thus, the shorter residence time in the high‐speed downer wall region is coupled with faster reaction rates due to the accompanying high concentration of catalyst, while the dilute core has slower reaction rates with longer residence time due to the lower catalyst concentration and flow velocity. This results in much more uniform reaction extent over the cross‐sectional area of the downer and, therefore, should improve the product selectivity.</abstract><cop>Hoboken</cop><pub>Wiley Subscription Services, Inc., A Wiley Company</pub><doi>10.1002/aic.690460310</doi><tpages>8</tpages></addata></record> |
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subjects | Applied sciences CATALYSTS Chemical engineering CIRCULATING SYSTEMS ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION Exact sciences and technology Fluidization FLUIDIZED BEDS REACTION KINETICS SOLIDS FLOW |
title | Characterization of downflowing high velocity fluidized beds |
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