Flotation of a Complex Sulphide Ore: Raw Material Characterization and Optimization of Process Parameters

Research output: ThesisMaster's Thesis

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@mastersthesis{bfbfdc31ec1a43fea1208b1ef3d243f4,
title = "Flotation of a Complex Sulphide Ore: Raw Material Characterization and Optimization of Process Parameters",
abstract = "This master thesis investigates the separation of complex sulphide minerals present in a fluorite-barite ore. The industrial sample analyzed in this work contains significant amounts of copper and silver-bearing phases. These phases are enriched into a valuable concentrate by flotation, with the long-term objective of maximizing the recovery of the valuable components through process optimization. Grinding tests are first conducted at a laboratory scale using a wet-operated rod mill. Critical flotation feed characteristics and comminution indexes are determined from the grinding products such as particle size distributions and specific energy consumption. Lab-scale flotation tests are thus conducted to evaluate the effects of feed particle size, conditioning parameters, collector types and dosages, and the number of flotation stages. Particle size class-specific analyses in the form of Henry-Reinhardt diagrams for the flotation tailings are finally conducted to refine the process parameters and to gain knowledge about its limits.",
keywords = "Grinding, Particle Size Distribution, Bond Work Index, Henry-Reinhardt Diagrams, Flotation, Reagents, Yield, Mahlen, Partikelgr{\"o}{\ss}enverteilung, Bindungsarbeitsindex, Henry-Reinhardt-Diagramme, Flotation, Reagenzien, Ausbeute",
author = "Abu Huraira",
note = "embargoed until 05-06-2029",
year = "2024",
doi = "10.34901/mul.pub.2024.183",
language = "English",
school = "Montanuniversitaet Leoben (000)",

}

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TY - THES

T1 - Flotation of a Complex Sulphide Ore

T2 - Raw Material Characterization and Optimization of Process Parameters

AU - Huraira, Abu

N1 - embargoed until 05-06-2029

PY - 2024

Y1 - 2024

N2 - This master thesis investigates the separation of complex sulphide minerals present in a fluorite-barite ore. The industrial sample analyzed in this work contains significant amounts of copper and silver-bearing phases. These phases are enriched into a valuable concentrate by flotation, with the long-term objective of maximizing the recovery of the valuable components through process optimization. Grinding tests are first conducted at a laboratory scale using a wet-operated rod mill. Critical flotation feed characteristics and comminution indexes are determined from the grinding products such as particle size distributions and specific energy consumption. Lab-scale flotation tests are thus conducted to evaluate the effects of feed particle size, conditioning parameters, collector types and dosages, and the number of flotation stages. Particle size class-specific analyses in the form of Henry-Reinhardt diagrams for the flotation tailings are finally conducted to refine the process parameters and to gain knowledge about its limits.

AB - This master thesis investigates the separation of complex sulphide minerals present in a fluorite-barite ore. The industrial sample analyzed in this work contains significant amounts of copper and silver-bearing phases. These phases are enriched into a valuable concentrate by flotation, with the long-term objective of maximizing the recovery of the valuable components through process optimization. Grinding tests are first conducted at a laboratory scale using a wet-operated rod mill. Critical flotation feed characteristics and comminution indexes are determined from the grinding products such as particle size distributions and specific energy consumption. Lab-scale flotation tests are thus conducted to evaluate the effects of feed particle size, conditioning parameters, collector types and dosages, and the number of flotation stages. Particle size class-specific analyses in the form of Henry-Reinhardt diagrams for the flotation tailings are finally conducted to refine the process parameters and to gain knowledge about its limits.

KW - Grinding

KW - Particle Size Distribution

KW - Bond Work Index

KW - Henry-Reinhardt Diagrams

KW - Flotation

KW - Reagents

KW - Yield

KW - Mahlen

KW - Partikelgrößenverteilung

KW - Bindungsarbeitsindex

KW - Henry-Reinhardt-Diagramme

KW - Flotation

KW - Reagenzien

KW - Ausbeute

U2 - 10.34901/mul.pub.2024.183

DO - 10.34901/mul.pub.2024.183

M3 - Master's Thesis

ER -