Impact of Particle Shape, Size, and Size Distribution on Gravity Flow Behaviour of Broken Ore in Sublevel Caving

An in-depth understanding of the gravity flow behaviour of broken ore is beneficial to improving the ore recovery in sublevel caving mines. In this study, granular dolomites were used as an analogue to experimentally explore the effect of the physical properties of fragments on the gravity flow beha...

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Veröffentlicht in:	Minerals (Basel) 2022-10, Vol.12 (10), p.1183
Hauptverfasser:	Wang, Liancheng, Jing, Hongdi, Yu, Jianyang, Liu, Xiaobo
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Sprache:	eng
Schlagworte:	Angle of repose Dimensions Dolomite Dolostone Engineers Experiments Fractal geometry Granular materials Gravity Gravity flow Influence Jamming Mining Mining engineering Morphology Numerical analysis Pallets Particle shape Particle size Particle size distribution Percolation Physical properties Shape Simulation Size distribution Sublevel caving
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creator	Wang, Liancheng Jing, Hongdi Yu, Jianyang Liu, Xiaobo
description	An in-depth understanding of the gravity flow behaviour of broken ore is beneficial to improving the ore recovery in sublevel caving mines. In this study, granular dolomites were used as an analogue to experimentally explore the effect of the physical properties of fragments on the gravity flow behaviour of broken ore. Five groups of granular dolomites were prepared first. Then, the particle size, particle size distribution, and particle morphology (e.g., sphericity, circularity, and fractal dimension) in each group were measured following the standard particle morphology test. After that, the angle of repose and the isolated extraction zone (IEZ) of each group were determined by performing funnel and isolated draw experiments, respectively. The experimental results highlighted the insubstantial effect of particle size and the significant effect of particle morphology on the angle of repose and isolated extraction zone of granular dolomite. It was found that a wider particle size distribution yielded an isolated extraction zone with a nonuniform shape and a smaller mass drawn because of the percolation of finer particles and the jamming of larger particles. Further, a linear negative correlation was revealed between the repose angle and the IEZ mass. Establishing the relationship between the repose angle and the IEZ shape would be of great significance. In this regard, the findings of this study can aid a preliminary analysis.
doi_str_mv	10.3390/min12101183
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In this study, granular dolomites were used as an analogue to experimentally explore the effect of the physical properties of fragments on the gravity flow behaviour of broken ore. Five groups of granular dolomites were prepared first. Then, the particle size, particle size distribution, and particle morphology (e.g., sphericity, circularity, and fractal dimension) in each group were measured following the standard particle morphology test. After that, the angle of repose and the isolated extraction zone (IEZ) of each group were determined by performing funnel and isolated draw experiments, respectively. The experimental results highlighted the insubstantial effect of particle size and the significant effect of particle morphology on the angle of repose and isolated extraction zone of granular dolomite. It was found that a wider particle size distribution yielded an isolated extraction zone with a nonuniform shape and a smaller mass drawn because of the percolation of finer particles and the jamming of larger particles. Further, a linear negative correlation was revealed between the repose angle and the IEZ mass. Establishing the relationship between the repose angle and the IEZ shape would be of great significance. 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This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). 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In this study, granular dolomites were used as an analogue to experimentally explore the effect of the physical properties of fragments on the gravity flow behaviour of broken ore. Five groups of granular dolomites were prepared first. Then, the particle size, particle size distribution, and particle morphology (e.g., sphericity, circularity, and fractal dimension) in each group were measured following the standard particle morphology test. After that, the angle of repose and the isolated extraction zone (IEZ) of each group were determined by performing funnel and isolated draw experiments, respectively. The experimental results highlighted the insubstantial effect of particle size and the significant effect of particle morphology on the angle of repose and isolated extraction zone of granular dolomite. It was found that a wider particle size distribution yielded an isolated extraction zone with a nonuniform shape and a smaller mass drawn because of the percolation of finer particles and the jamming of larger particles. Further, a linear negative correlation was revealed between the repose angle and the IEZ mass. Establishing the relationship between the repose angle and the IEZ shape would be of great significance. In this regard, the findings of this study can aid a preliminary analysis.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/min12101183</doi><orcidid>https://orcid.org/0000-0001-8893-1923</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Angle of repose Dimensions Dolomite Dolostone Engineers Experiments Fractal geometry Granular materials Gravity Gravity flow Influence Jamming Mining Mining engineering Morphology Numerical analysis Pallets Particle shape Particle size Particle size distribution Percolation Physical properties Shape Simulation Size distribution Sublevel caving
title	Impact of Particle Shape, Size, and Size Distribution on Gravity Flow Behaviour of Broken Ore in Sublevel Caving
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