[HTML][HTML] Towards optimising ball-milling capacity: effect of lifter design

AB Makokha, MH Moys - Minerals Engineering, 2006 - Elsevier
AB Makokha, MH Moys
Minerals Engineering, 2006Elsevier
The effect of liner/lifter profile on kinetics of batch grinding and the milling capacity in general
was assessed using mono-size quartz material of 30× 40 mesh (− 600+ 425μm) as feed.
The liner profiles tested were,(i) bevel with 60° lifter face angle to represent the new
liners,(ii) bevel with 45° lifter face angle to represent the worn liners and (iii) worn bevel
modified with cone-lifters. The tests were conducted under identical conditions to allow a
comparative analysis of the results. In all cases, the breakage followed the first order …
The effect of liner/lifter profile on kinetics of batch grinding and the milling capacity in general was assessed using mono-size quartz material of 30×40 mesh (−600+425μm) as feed. The liner profiles tested were, (i) bevel with 60° lifter face angle to represent the new liners, (ii) bevel with 45° lifter face angle to represent the worn liners and (iii) worn bevel modified with cone-lifters. The tests were conducted under identical conditions to allow a comparative analysis of the results. In all cases, the breakage followed the first order hypothesis. The experimental size distribution data was well predicted by the S and B model, thus allowing for estimation of breakage and selection parameters (i.e., γ and aT) for the three liner situations tested. The optimised values of the specific rate of breakage, Si for the three liner profiles tested were 0.381, 0.287 and 0.365min−1, respectively, which clearly indicates the benefit of cone-lifters. The breakage distribution function (Bij) values did not vary significantly with liner profile, which echoes the findings by other researchers.
Elsevier
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