| 1 |
Improving milling operation using uncertainty and global sensitivity analyses
Lucay FA, Galvez ED, Salez-Cruz M, Cisternas LA
Minerals Engineering, 131, 249, 2019 |
| 2 |
Studying the integration of solar energy into the operation of a semi-autogenous grinding mill. Part II: Effect of ore hardness variability, geometallurgical modeling and demand side management
Pamparana G, Kracht W, Haas J, Ortiz JM, Nowak W, Palma-Behnke R
Minerals Engineering, 137, 53, 2019 |
| 3 |
Studying the integration of solar energy into the operation of a semi-autogenous grinding mill. Part I: Framework, model development and effect of solar irradiance forecasting
Pamparana G, Kracht W, Haas J, Ortiz JM, Nowak W, Palma-Behnke R
Minerals Engineering, 137, 68, 2019 |
| 4 |
Generation of low ash fine clean coal powder by autogenous grinding process powder technology
Sriramoju SK, Rashmi, Suresh A, Dash PS
Powder Technology, 342, 67, 2019 |
| 5 |
Numerical prediction of wear in SAG mills based on DEM simulations
Xu L, Luo K, Zhao YZ
Powder Technology, 329, 353, 2018 |
| 6 |
The SAG grindability index test
Amelunxen P, Berrios P, Rodriguez E
Minerals Engineering, 55, 42, 2014 |
| 7 |
Multi-component AG/SAG mill model
Bueno MP, Kojovic T, Powell MS, Shi F
Minerals Engineering, 43-44, 12, 2013 |
| 8 |
Breakage of waste concrete for liberation using autogenous mill
Kim KH, Cho HC, Ahn JW
Minerals Engineering, 35, 43, 2012 |
| 9 |
Influence of charge type on measurements with an in-mill sensor
Alatalo J, Palsson B, Tano K
Minerals Engineering, 39, 262, 2012 |
| 10 |
SAG MILL SYSTEM DIAGNOSIS USING MULTIVARIATE PROCESS VARIABLE ANALYSIS
Ko YD, Shang H
Canadian Journal of Chemical Engineering, 89(6), 1492, 2011 |
