Conference Proceedings
The AusIMM Proceedings Volume 303, No 1
Conference Proceedings
The AusIMM Proceedings Volume 303, No 1
Residence Time Distribution for a Cold Model Rotary Kiln
The particle dynamics of a mixture of coal and zircon system was
studied in a scaled-down cold model of an industrial kiln. The
factors investigated in the study were rotational speed (N),
zircon-to-coal feed ratio (B), coal particle size (dpc) and the angle of inclination (*) of the kiln. The technique used is the residence time distribution (RTD) method. It was found that rotational speed and angle of inclination are important parameters that affect the residence time of particles in the kiln. A mathematical model for predicting the mean residence time of particles in the rotary kiln was developed. Comparisons with reported models for such systems are discussed.
studied in a scaled-down cold model of an industrial kiln. The
factors investigated in the study were rotational speed (N),
zircon-to-coal feed ratio (B), coal particle size (dpc) and the angle of inclination (*) of the kiln. The technique used is the residence time distribution (RTD) method. It was found that rotational speed and angle of inclination are important parameters that affect the residence time of particles in the kiln. A mathematical model for predicting the mean residence time of particles in the rotary kiln was developed. Comparisons with reported models for such systems are discussed.
Contributor(s):
H M Ang, M O Tade, M W Sze
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