Three dimensional simulation raise energy effectiveness and decreses equipment wear
The throughput of grinding mills is dependent upon the movement of charge inside the mills, which in turn, is determined by the lifter style and mill velocity. The objective of this investigation is usually to create a three-dimensional simulation that could enable for much better lifter design and working conditions.
Today’s semiautogenous grinding (SAG) mills expend substantial quantities of energy and eat a lot of metal balls and shell liners even though processing ore. A substantial amount of energy is expended on unwanted ball strikes over the mill shell. These strikes also lead to put on about the balls along with the shell. Unfortunately, the environment within the SAG mill is also harsh to place sensors to obtain actual data in regards to the operation from the mills. Given that true information about the circumstances within can not be obtained, simulations offer you the very best solution to improving its operation and improving energy effectiveness. By way of simulations and screening, lifter design and mill velocity can be optimized, leading to increased energy effectiveness and operational expense financial savings.