论文信息 - Dynamic modeling and simulation of a SAG mill-pebble crusher circuit by controlling crusher operational parameters

Dynamic modeling and simulation of a SAG mill-pebble crusher circuit by controlling crusher operational parameters

A semi-autogenous (SAG) or autogenous mills (AG) circuit commonly comprises a pebble (cone) crusher to deal with the critical size particles. The pebbles crusher is often oversized, and thus not fully utilized. The hypothesis put forward in this paper is that active control of the cone crusher's eccentric speed and closed side setting (CSS) can increase throughput and/or energy efficiency of the SAG circuit. To verify this hypothesis, a dynamic model of a SAG mill-pebble crusher circuit was implemented. The dynamic unit models are based on results presented by several different researchers, whose results here have been combined and implemented in Matlab/Simulink. Previous research shows that by controlling the cone crusher operational parameters, the product particle size distribution (PSD) can be altered during operation. However, few papers have been published about whether the changes of the pebbles crusher's product PSD, lead to a higher performance of the SAG circuit. This paper examines the relations between the SAG mill and the pebble crusher in closed circuit while putting emphasis on controlling the pebble crusher in order to optimize the circuit throughput.

Gauti Asbjörnsson | Erik Hulthén | Magnus Evertsson | Haijie Li | Mats Lindqvist

[1] Carl Magnus Evertsson,et al. Improved flow- and pressure model for cone crushers , 2004 .

[2] Erik Hulthén. Real-Time Optimization of Cone Crushers , 2010 .

[3] Leonard G. Austin,et al. An alternative method for programming mill models , 2002 .

[4] Carl Magnus Evertsson,et al. Cone Crusher Performance , 2000 .

[5] G. Johnson,et al. Quantifying and improving the power efficiency of SAG milling circuits , 1994 .

[6] Carl Magnus Evertsson,et al. Prediction of worn geometry in cone crushers , 2003 .

[7] Steven J. Spencer,et al. Dynamic simulation of grinding circuits , 2004 .

[8] Modelling and simulation of dynamic crushing plant behavior with MATLAB/Simulink , 2013 .

[9] T. Kojovic,et al. Multi-component AG/SAG mill model , 2013 .

[10] José Luis Salazar,et al. Dynamic modelling and simulation of semi-autogenous mills , 2009 .

[11] Gauti Asbjörnsson,et al. Modelling and dynamic simulation of gradual performance deterioration of a crushing circuit – Including time dependence and wear , 2012 .

[12] W. Valery,et al. THE DEVELOPMENT OF A DYNAMIC MODEL FOR AUTOGENOUS AND SEMI-AUTOGENOUS GRINDING , 1995 .

[13] Malcolm Powell,et al. Analytical solution for the dynamic model of tumbling mills , 2017 .