Interpretation of Breakage Mechanisms in Comminution Processes by Using Particle Shape Properties: The Case Study at Buzwagi Comminution Circuit

Authors

  • Sospeter P. Maganga The University of Dodoma, College of Earth Sciences and Engineering, Department of Mining and Mineral Processing Engineering, P.O. Box 11090, Dodoma, Tanzania
  • Alphonce Wikedzi University of Dar es Salaam, School of Mines and Geosciences, Department of Mining and Mineral Processing Engineering, P.O. Box 35131, Dar es Salaam, Tanzania
  • Kaniki Tumba Mangosuthu University of Technology, Department of Chemical Engineering, Durban, South Africa

DOI:

https://doi.org/10.4314/tjs.v51i1.6

Abstract

This study interprets the breakage mechanisms at Buzwagi comminution circuit by using particle shape properties. The particle shape properties of aspect ratio, angularity, convexity and solidity were acquired from a mineral liberation analyser using DataView software. The results indicated that ground particles at Buzwagi comminution circuit were more elongated with mean aspect ratio ranges from 1.5893 to 1.6426, less angular with mean angularity values from 0.3770 to 0.4137 and smoother with mean convexity values from 0.9766 to 0.9817. The study concludes that ore particles at Buzwagi comminution circuit were ground by the combination of impact as a dominant mechanism and abrasion as a less dominant mechanism. The information on particle shape properties from comminution circuit can be used to predict the performance of downstream processes such as gravity and flotation.

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Published

2025-04-14

Issue

Vol. 51 No. 1 (2025)

Section

Physical Sciences

License

Authors who publish in The Eastern Africa Law Review retain the copyright to their work and grant the University of Dar es Salaam a non-exclusive license to publish, reproduce, and distribute the article.

This article is published under the Creative Commons Attribution 4.0 International (CC BY 4.0) License, which permits unrestricted use, distribution, adaptation, and reproduction in any medium, provided the original work is properly cited.