the latest developments in iron ore · pdf filecouncil for mineral technology the latest...
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![Page 1: The Latest Developments in Iron Ore · PDF fileCouncil for Mineral Technology The Latest Developments in Iron Ore Processing 5 June Isabel King](https://reader031.vdocuments.mx/reader031/viewer/2022020213/5a726f7a7f8b9a9d538d8952/html5/thumbnails/1.jpg)
Council for Mineral Technology
The Latest Developments in Iron Ore Processing
5 June
Isabel King
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Iron ore Processing
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• Overview– Suppliers, sources early days
• Crushing Techniques
• Processing Options– Coarse processing– Fines processing
• Conclusions
Introduction: Iron Ore Processing
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Largest Iron Suppliers
• Vale
• BHP
• Rio Tinto
• Kumba Iron ore
Overview
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Iron Ore Sources• Hematite
(Fe2O3)
• Magnetite(Fe3O4)
• Titaniferous Magnetite(Fe2+ (Fe3+ ,Ti)2O4)
Overview
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Occurrence• Massive
• Banded Iron Formation (BIF)
• Limonite
• Taconite
Overview
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• Main Use of Iron Ore– Steel Industry
• Iron Ore Processing in the Early Days– Mine– Crush– Screen– Sell
• Present– Need Upgrading
Overview
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Objective of Processing• Preparation for smelting
– SiO2 <3%– Fe>63%– Al2O3 <3.5%– S and P content minimise
• Maximise recovery and yield
Overview
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Iron Ore Mine -Thabazimbi
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Iron Ore Crushing
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• Primary/Secondary Crushing– Jaw– Gyratory – Kawasaki
• Tertiary Crushing– Cone– High Pressure Grinding Roll
(HPGR)
Crushing Techniques
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Cone Crushing vs. HPGR• Cone Crushing
– Minimise flakiness– Shape factor influences Jig/DMS
performance
• HPGR– Better liberation in tertiary capacity
Crushing Techniques
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Iron Ore Screening
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Hematite• Coarse (-32+8mm)
• Medium (-8+1mm)
• Fine (-1mm+212 / 75µm)
• Slimes (-212µm)
Magnetite
Processing Options
DMS/Jigging
Spirals/TBS/WHIMS/Flotation
LIMS/Flotation
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Jigging on Iron Ore
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• Narrow size classes– -32+8mm– -8+3mm– -3+1mm
• Size and Density Separator• Fines Jigs hard to control• ‘Over the bed’ Jigs• ‘Through the bed’ Jigs
– Ragging
• Capacity – 85t/h per meter width of jig to max of 4m wide jig
Jigging on Iron Ore
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Dense Media Separation on Iron Ore
DMS Drum DMS Cyclone
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Dense Media Separation on Iron Ore
Feed
Floats sieve bend
OverflowSinks
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Dense Media Separation on Iron Ore
DMS Drum Sinks DMS Drum Floats
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• DMS Drum– Up to 4.6m diameter– Process 600t/h lumpy iron ore
• DMS Cyclone– Only -6mm material for iron ore– 360mm diameter cyclone– Process 40t/h per cyclone
• Larcodems– -90+6mm stones– 1.2m diameter– Operating capacity of 600-800t/h– Efficient separation at SG’s as high as 4.1g/cm3
Dense Media Separation on Iron Ore
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• Cut SG of 3.6-3.8 g/cm3
• Not considered at 4g/cm3
– Viscosity of FeSi
• Ferrosilicon– Water atomised– Gas atomised
• Maximise recovery and yield
Dense Media Separation on Iron Ore
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Dense Media Separation on Iron Ore
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DMS• High operating cost• Efficient separation
– Depends on bottom size– Near density material– Optimse yield and recovery– Lower tailings grades
• Density Separation– Small effect on size
DMS vs. Jigging
Jigging• Low operating cost• Less efficient separation
– Narrow size classes– Recovery losses– Higher tailings grades
• Size and density separation
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DMS vs. Jigging
DMS simulation
0.0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
100.0
2.50 2.60 2.70 2.80 2.90 3.00 3.10 3.20 3.30 3.40 3.50 3.60 3.70 3.80 3.90 4.00
mean sg
disc
rete
mas
s %
20-15mm 15-12mm12-9mm 9-6mm6-4mm 4-2mm2-1mm 1-0.5mm
Jig simulation
0.0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
100.0
2.50 2.60 2.70 2.80 2.90 3.00 3.10 3.20 3.30 3.40 3.50 3.60 3.70 3.80 3.90 4.00
mean sg
mas
s %
to p
rodu
ct
20-15mm 15-12mm12-9mm 9-6mm6-4mm 4-2mm2-1mm 1-0.5mm
DMS JigEp 0.07 0.144D50 3.16 3.19Yield 77% 70%
Results for the same product gradeNB: Very dependent on feed size distribution
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Hematite• -1mm + 212 / 75µm
– Spirals and Teeter Bed Separator (TBS)– Wet High Intensity Magnetic Separation
(WHIMS)– SLon Magnetic Separation
• -212 / 75µm– WHIMS– SLon– Flotation
Magnetite• -1mm + 212 / 75µm
– Wet Low Intensity Magnetic Separation (LIMS)
– TBS
• -212 / 75µm– LIMS– TBS– Flotation
Fines Processing
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Spirals
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• Mostly water flushed spirals– SC20FE– 1.5t/h
• High capacity spirals– Reduce footprint of plant– Deeper troughs– Wider– 4-7t/h
Spirals
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Teeter Bed Separation (TBS)
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• Fluidised bed
• Part of spiral circuit– Final cleaning of concentrates
• Feed preparation for spiral circuit on coarse material– -3mm particles are too coarse for spirals
• BIF as a two pass system
Teeter Bed Separation (TBS)
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Wet High Intensity Magnetic Separation (WHIMS)
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• Magnetic susceptibility – Difference has to be large
• Not recommended – Paramagnetic gangue minerals are
present
• Effective on slimes– Much finer sizes than 212µm
• Capacity of 120t/h
WHIMS
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SLon
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• High gradient magnetic separator (HGMS)
• Combined force field– Magnetism– Pulsating fluid – Gravity
• China and Peru
• Separating fine hematite and magnetite
• Capacity of 120t/h
SLon
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• Main purpose to add additional recovery
• Reverse/Direct flotation
• Taconite– Part of magnetic separation circuit– Selective flocculation– Fine grinding, pellitisation
Flotation
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Typical Magnetite Processing Circuit
Crushing
HPGR
"212" micron
Coarse LIMSmax 5 passes
Fine LIMSmax 5 passes
Fine TBS
"75" micron
1
5
4
3
2 7
6
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LIMS Plant
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Wet Low Intensity Magnetic Separator (LIMS)
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• Mostly magnetic separation
• Performance of gravity separation affected by grind
• Possibility of producing a secondary ilmenite product???
Processing of Titaniferous Magnetite
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Conclusions
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Acknowledgements
Jeremy Bosman – University of Pretoria/ PescoCarl Bergmann - Mintek
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www.mintek.co.za
Thank you