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Development and validation of calibration methods for discrete element modelling

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posted on 2024-11-15, 05:10 authored by Andrew GrimaAndrew Grima, Peter WypychPeter Wypych
Discrete element method (DEM) is proving to be a reliable and increasingly used tool to study and predict the behaviour of granular materials. Numerous particlescale mechanisms influence the bulk behaviour and flow of bulk materials. It is important that the relevant measurable input parameters for discrete element models bemeasured by laboratory equipment or determined by physical calibration experiments for rational results. This paper describes some of the bench-scale experiments that have been developed to calibrate the DEM simulations to reflect actual dynamic behaviour. Relevant parameters such as static and rolling coefficients of friction, coefficient of restitution and interparticle cohesion forces from the presence of liquid bridges have been investigated to model the bulk behaviour of dry and moist granular materials. To validate the DEM models, the results have been checked against experimental slump tests and hopper discharge experiments to quantitatively compare the poured and drained angles of repose and solidsmass flow rate. The calibration techniques presented have the capability to be scaled to model and fine tune DEM parameters of granular materials of varying length scales to obtain equivalent static and dynamic behaviour.

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Citation

Grima, A. Phillip. Wypych, P. Wilhelm. (2011). Development and validation of calibration methods for discrete element modelling. Granular Matter, 13 (2), 127-132. >

Journal title

Granular Matter

Volume

13

Issue

2

Pagination

127-132

Language

English

RIS ID

37345

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