Extending the application of JKFBC for gravity induced stirred mills feed ore characterisation
- 1 February 2017
- journal article
- Published by Elsevier BV in Minerals Engineering
- Vol. 101, 1-9
- https://doi.org/10.1016/j.mineng.2016.08.012
Abstract
No abstract availableThis publication has 12 references indexed in Scilit:
- A specific energy-based size reduction model for batch grinding ball millMinerals Engineering, 2015
- Coal breakage characterisation – Part 1: Breakage testing with the JKFBCFuel, 2014
- Coal breakage characterisation – Part 3: Applications of the multi-component model for HGI prediction and breakage simulationsFuel, 2014
- Coal breakage characterisation – Part 2: Multi-component breakage modellingFuel, 2014
- CFD–DEM modelling of particle flow in IsaMills – Comparison between simulations and PEPT measurementsMinerals Engineering, 2011
- Comparison of energy efficiency between ball mills and stirred mills in coarse grindingMinerals Engineering, 2009
- Validation of a model for impact breakage incorporating particle size effectInternational Journal of Mineral Processing, 2007
- Analysis of stirred mill performance using DEM simulation: Part 2 – Coherent flow structures, liner stress and wear, mixing and transportMinerals Engineering, 2006
- Analysis of stirred mill performance using DEM simulation: Part 1– Media motion, energy consumption and collisional environmentMinerals Engineering, 2006
- Stress energy distribution in different stirred media mill geometriesInternational Journal of Mineral Processing, 2004