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Designing curved pulp lifters for the Sarcheshmeh Copper Complex SAG mill using discrete element method modelling
By
M. Rezaei , M. Maleki-Moghaddam , A. Ghasemi , A. Fazeli , and S. Banisi
Published in
International Mineral Processing Congress (IMPC)
at
2020
Direct link:
http://kmpchemmat.ir/pii/251186
Abstract
The efficiency of high capacity SAG mills which consume large amounts of energy depends on the grinding and slurry discharge systems. A 9.7 m × 4.8 m SAG mill with radial pulp lifters is used at the Sarcheshmeh copper complex grinding circuit. The process audit indicated that the pulp discharge system was not efficient, judging by the amount of slurry flow back and carry over. These events limited the discharge rate and increased the wear rate of the lifters and grates. With the objective of finding a new design for pulp lifters, a 3D DEM software (KMPCDEM ©), along with the plant operational data and photographic evidence was used. The KMPCDEM © software was used to compare the efficiency of the radial and curved pulp lifter design based on the material flow. The slurry flow was analysed in terms of ease of discharge and lifter wear rate. It was found that changing the radial pulp lifters to curved pulp lifters could improve the discharge efficiency,and decrease wear rate of the pulp lifter in particular at the base of the pulp lifters. The simulation results showed that if curved lifters with a radius of 0.3×mill radius are used, the amount of slurry flow back and carry over will be negligible. It is predicted that by installing the curved pulp lifters, the capacity of the mill increases by 10% and the pulp lifter service life improves by at least 20%.
Keywords
SAG mill, radial pulp lifter, DEM,curved pulp lifter, Sarcheshmeh
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