(260f) Quantification of Riser Hydrodynamics | AIChE

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(260f) Quantification of Riser Hydrodynamics

Authors 

Shaffer, F. - Presenter, National Energy Technology Laboratory, U.S. Department of Energy
Knowlton, T. - Presenter, Particulate Solid Research, Inc. (PSRI)
Chew, J. W. - Presenter, University of Colorado at Boulder
Gopalan, B. - Presenter, National Energy Technology Laboratory, U.S. Department of Energy


High speed video analysis was done for riser hydrodynamics of Geldart Group A and B material in a 12-inch (0.3-m) diameter by 60-ft (18-m) tall riser, 12-inch (0.3-m) diameter by 49-ft (15-m) tall riser, and 8-inch (0.2-m) diameter by 72-feet (22-m) tall riser.  Analysis of video results clearly showed the core annulus profile with both upflow and down flow at the wall, the cluster formation and stability resulting from transient gas jets and particle rotational velocities.  Detailed particle tracking analysis (HSPIV) further revealed shear near the wall plus the radial granular temperature profile.

Topics 

Particle Technology

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