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Flow Mode Characterization in a One Metre Diameter Rotating Drum
Author(s) -
Davies C. E.,
Jones J. R.,
Hussein K.,
Fi?vez S.,
Tallon S. J.
Publication year - 2006
Publication title -
developments in chemical engineering and mineral processing
Language(s) - English
Resource type - Journals
eISSN - 1932-2143
pISSN - 0969-1855
DOI - 10.1002/apj.5500140111
Subject(s) - drum , metre , characterization (materials science) , flow (mathematics) , mechanics , mode (computer interface) , acoustics , materials science , mechanical engineering , engineering , physics , computer science , nanotechnology , operating system , astronomy
Abstract A newly developed instrument for characterising flow behaviour in a rotating drum senses particle motion with a load cell positioned under a pivoted framework that holds a 130 mm drum. Changes from the slumping regime to the rolling regime have been correlated with decreasing variance of the load signal for an increasing rotation rate. This paper extends earlier work to investigate the validity of applying results obtained in a small drum to large‐scale equipment. Load cell signals from equipment with a drum of I metre diameter, constructed with the same design basis as the 130 mm characterisation instrument, were digitally filtered to remove noise believed to be associated with vibration of the framework, and also frequencies demonstrated to arise from the drive train. As with the 130 mm equipment, decreasing avalanching activity was found to be associated with decreasing variance. Bed profiles obtained from digital video images were consistent with the observedflow regimes.