Litcius/Paper detail

Effect of Particle Shape on Parameter Calibration for a Discrete Element Model for Mining Applications

Manuel Moncada, Fernando Betancourt, Cristian Rodríguez, Patricio Toledo

2022Minerals24 citationsDOIOpen Access PDF

Abstract

The discrete element method (DEM) has been widely employed to model processes in different industries, such as mining, agriculture, pharmaceuticals, and food. One of the main lines of research, and in which different authors propose several approaches, is the calibration of parameters. Bulk calibration (BCA) is a common approach used that does not necessarily represent the individual behavior of each particle. On the other hand, direct measurement (DMA) is another approach employed in some cases. This work presents a comparison between calibration of DEM model parameters with non-cohesive spherical and polyhedral particles using a combination of direct measurement and bulk calibration. BCA is employed to calibrate friction parameters and DMA to characterize shape of the particles and coefficient of restitution of the contact between particles. Experimental data from Draw Down Tests are used to calibrate the friction parameters. Numerical optimization of the parameters is conducted by altering the coefficients of friction regarding the objective variables of mass flow, final mass, shear angle, and angle of repose. Quartz, granite, and coal are calibrated, obtaining good agreement with the experimental results. The influence of particle shape is tested, proving that more complex particles obtain better results for the analyzed case.

Topics & Concepts

Discrete element methodCalibrationAngle of reposeParticle (ecology)MechanicsExperimental dataWork (physics)Materials scienceQuartzBiological systemComputer scienceMechanical engineeringMathematicsPhysicsComposite materialGeologyEngineeringStatisticsOceanographyBiologyGranular flow and fluidized bedsSoil Mechanics and Vehicle DynamicsMineral Processing and Grinding