TY - JOUR
T1 - Flow of granular materials in a bladed mixer
T2 - Effect of particle properties and process parameters on impeller torque and power consumption
AU - Boonkanokwong, Veerakiet
AU - Frank, Rohan P.
AU - Valliappan, Pavithra
AU - Remy, Brenda
AU - Khinast, Johannes G.
AU - Glasser, Benjamin J.
N1 - Funding Information:
One of the authors, Veerakiet Boonkanokwong, would like to gratefully thank Chulalongkorn University, Bangkok, Thailand for granting a financial support (100 th -year Celebration of Chulalongkorn University Academic Scholarship) during his educational leave of absence. The authors wish to thank Chemglass Life Sciences © and Yokogawa™ representatives for technical support. We thank John J. Petrowski of the Department of Mechanical and Aerospace Engineering, Rutgers University for his advice regarding equipment and for helping us construct the impeller blades.
Publisher Copyright:
© 2018 The Society of Powder Technology Japan
PY - 2018/11
Y1 - 2018/11
N2 - The torque and power needed to drive an impeller are important quantities that can indicate flow behavior and can be used to control processes, especially mixing and granulation in the pharmaceutical industry. In this study, experiments were conducted on monodisperse spherical glass beads flowing in a cylindrical bladed mixer agitated by an impeller. The impeller torque was measured using a rotating platform and a data recording device, and the power draw for the motor driving the impeller was measured using a power meter. The effect of various impeller blade designs and material properties on the torque and power were investigated as a function of the impeller blade rotation rate. It was found that the torque exerted on a granular bed and the power consumption were a strong function of the impeller blade configuration, the position of the blades in a deep granular bed, the fill height of the glass beads, and the size and friction coefficient of the particles. It was observed that the time-averaged torque and power consumption for different particle sizes qualitatively scaled with particle diameter. A scale-up relationship for a deep granular bed was developed: the time-averaged torque and average adjusted power consumption scaled with square of the material fill height.
AB - The torque and power needed to drive an impeller are important quantities that can indicate flow behavior and can be used to control processes, especially mixing and granulation in the pharmaceutical industry. In this study, experiments were conducted on monodisperse spherical glass beads flowing in a cylindrical bladed mixer agitated by an impeller. The impeller torque was measured using a rotating platform and a data recording device, and the power draw for the motor driving the impeller was measured using a power meter. The effect of various impeller blade designs and material properties on the torque and power were investigated as a function of the impeller blade rotation rate. It was found that the torque exerted on a granular bed and the power consumption were a strong function of the impeller blade configuration, the position of the blades in a deep granular bed, the fill height of the glass beads, and the size and friction coefficient of the particles. It was observed that the time-averaged torque and power consumption for different particle sizes qualitatively scaled with particle diameter. A scale-up relationship for a deep granular bed was developed: the time-averaged torque and average adjusted power consumption scaled with square of the material fill height.
KW - Bladed mixer
KW - Granular material
KW - Impeller torque
KW - Particulate flow regime
KW - Shear rate
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U2 - 10.1016/j.apt.2018.07.022
DO - 10.1016/j.apt.2018.07.022
M3 - Article
AN - SCOPUS:85051390924
SN - 0921-8831
VL - 29
SP - 2733
EP - 2752
JO - Advanced Powder Technology
JF - Advanced Powder Technology
IS - 11
ER -