Modelling cohesion and adhesion of wet, sticky iron ore in discrete element modeling for material handling processes

Chen, W.; Donohue, T.; Williams, K.; Katterfeld, A.; Roessler, T.

Title: Modelling cohesion and adhesion of wet, sticky iron ore in discrete element modeling for material handling processes
Creator: Chen, W.; Donohue, T.; Williams, K.; Katterfeld, A.; Roessler, T.
Relation: Iron Ore 2015. Proceedings Iron Ore 2015: Maximising Productivity (Perth, W.A. 13-15 July, 2015) p. 387-392
Publisher: The Australian Insitute of Mining and Metallurgy (AusIMM)
Resource Type: conference paper
Date: 2015
Description: Wet sticky iron ore poses particular difficulties in every aspect of the material handling process. Material hang-ups in bins, pipes and chutes; carry-back and spillage due to insufficient belt cleaning; clogging of screens; malfunctioning of crushers as well as rat holing of gravity reclaimed stockpiles are all predominantly due to the inherent cohesion and adhesion characteristics of the wet, sticky ore (Roberts, 1993). Limited understanding and quantitative measures on the stickiness of such a material significantly lower the mining operation efficiency. This research aims to investigate the cohesion and adhesion characteristics of the wet, sticky ore on physical modelling, experimental techniques and numerical implementation. Initially, the suitable bridging mechanism that contributes to the cohesive and adhesive forces within the iron ore material was identified (Hering, Martin and Stohrer, 1989; Rumpf, 1958). A cohesion/adhesion energy density factor based contact model was then introduced to describe the stickiness of the material. Secondly, an experimental system was proposed to directly test the stickiness of the material. Such a system is able to obtain both the cohesive/adhesive shear force and tensile force of the material at a specific moisture content. Lastly, the implementation of the proposed cohesion/adhesion model into the discrete element modelling (DEM) software was also discussed. A cohesion/adhesion calibration for modelling wet sticky iron ore in DEM was then conducted to ensure the material modelled in the simulation is reflective of the reality. From the study, understanding of the cohesion/adhesion characteristics of the wet iron ore material is significantly enhanced. Experimental and numerical outcomes can be directly applied for better designing or optimising the material handling processes that involve wet sticky iron ore. Consequently, the mining operating costs can be greatly reduced.
Subject: iron ore; materials handling; wet sticky iron ore; energy density; adhesion characteristics
Identifier: http://hdl.handle.net/1959.13/1340335
Identifier: uon:28451
Identifier: ISBN:9781925100280
Language: eng
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