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Liberation, Separation, Extraction

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Title: Liberation, Separation, Extraction


1
Liberation, Separation, Extraction
  • MINE 292 - Lecture 3

2
Liberation, Separation, Extraction
  • STAGE 1 Blasting (600-650 mm)
  • STAGE 2 - Primary Crushing (100-250 mm)
  • STAGE 3 - Secondary Crushing (12-19 mm)
  • STAGE 4 Grinding (100 microns)
  • STAGE 5 - Separation by size
  • STAGE 6 - Separation by values
  • STAGE 7 - Extraction of values

3
What is an Ore?
  • Mineralized rock that can be mined/processed
  • At a time (temporal)
  • At a place (spatial)
  • At a profit (economic)
  • Waste rock can become an ore
  • Tailings can become an ore

4
Drilling and Blasting
  • Creates a top size suitable for transportation
  • Begins the process of Liberation
  • Factors
  • Drill hole diameter
  • Drill hole spacing and pattern
  • Explosive type
  • Delay system

5
Drilling and Blasting
6
Influence of Blasting Practices
  • S. Morrell and W. Valery, 2001. Influence of
    Feed Size on AG/SAG Mill Performance. SAG 2001,
    Vancouver, Canada, pp203-214
  • S. Morrell, 2003. The Influence of Feed Size on
    Autogenous and Semiautogenous Grinding and the
    Role of Blasting in its Manipulation, Proc. 22nd
    International Mineral Processing Congress, Eds.
    L.Lorenzen and D.J. Bradshaw, p.526-533.

7
Influence of Blasting Practices
  • S. Morrell and W. Valery, 2001. Influence of
    Feed Size on AG/SAG Mill Performance. SAG 2001,
    Vancouver, Canada, pp203-214
  • S. Morrell, 2003. The Influence of Feed Size on
    Autogenous and Semiautogenous Grinding and the
    Role of Blasting in its Manipulation, Proc. 22nd
    International Mineral Processing Congress, Eds.
    L.Lorenzen and D.J. Bradshaw, p.526-533.

8
Influence of Blasting Practices
So, an increased Power Factor of 0.6 kg/m3 yields
250 t of increased production and a decrease in
average grinding energy of 1.4 kWh/t Bulk
Density 1 m3 of ore 2.03 t (ore S.G.
2.9) Increased explosives use (kg/t) 0.6 kg /
2.03 t 0.296 kg/t Increased cost 0.296 kg/t x
1.06/kg 0.313 kg/t Explosive cost increase
0.313 x 250 t 78.33 Decreased energy cost
0.10/kWh x 1.4 kWh/t x 250 t 35.0 Total
cost increase 78.33 - 35.00 43.33
Increased ore value 250 t _at_ 5.26 / t
1,315 0.4 Cu 3.6 kg recoverable Cu / t x
7.3 /kg x 0.2 5.26 / t
9
Order of Comminution Processing
Blasting
Primary Crushing
Secondary Crushing
Grinding
Regrinding
10
Crushing Machines
11
Crushing Machines
12
Jaw Crusher
13
Gyratory Crusher
14
Symons Cone Crusher
15
Cone Crusher Liners
16
HPGR high-pressure grinding rolls
17
High-Pressure Grinding Rolls
18
Vibrating Screen
19
Secondary Crushing Plant
20
Alternate Secondary Crushing Plant Design
21
Open Circuit Crushing
22
Grinding Mills
23
Grinding Mills
  • Rod Mill opened up for maintenance
    Ball Mill overflow type

24
Conical Ball-Mill
25
Grinding Mills
Bingham Canyon Grinding Mills
26
Tube Mill
27
Rod-Mill Overflow Discharge
28
Rod-Mill End Peripheral Discharge
29
Rod-Mill Central Peripheral Discharge
30
SAG Mill semi-autogenous grinding
31
Grinding and Cyanide Leaching
Musslewhite Mine, Ontario
32
Cyclo-Pak classification hydrocyclones
33
Spiral and Rake Classifiers
34
Rake Classifier
35
Rake Classifier
36
Spiral Classifiers
37
Air Cyclone / Particle Recovery
38
Size Distribution of Soils
39
Size Distribution Curves
40
Bimodal Size Distribution
41
(No Transcript)
42
Hydrocyclone
43
Separator Partition Curves
44
Stokes Law
45
ABC Grinding Circuit
46
Bond Work Index Formula
47
Size Ranges in Separators
48
Electronic Sorting
49
Electrostatic Separation
50
Cross-Belt Magnetic Separator
51
Drum Magnetic Separator
52
2-stage Drum Magnetic Separator
53
Pinched Sluice
54
Riffles in a Sluice
55
Humphrey Spiral iron ore
56
Particle Distribution in Spiral Trough
57
Reichert Cone separator
58
Fluid (pulp) Flow in a Cone Separator
59
Shaking Table
60
Statification on a Shaking Table
61
Gold on a Shaking Table
62
Jigging - stratification
63
Centrifugal Concentrator the Falcon
64
Flotation Cell
65
Flotation Cell Agitator Design
66
Flotation Cell - Rotors
67
Separation Circuit
68
Copper Flotation Circuit
69
Downstream Processing
  • Copper
  • Oxide copper treatment

70
Copper Ores Concentrating
  • Simplest Copper Flotation Circuit

71
Copper Ores Concentrating
  • Copper/Gold Flotation Circuit

72
Copper/Moly Ores Concentrating
  • Copper/Moly Flotation Circuit

73
Copper Ores Concentrating
  • Multiple Sulfide Differential Flotation Circuit

74
Copper Ores Concentrating
  • Mixed Oxide/Sulfide Copper Flotation Circuit

75
Copper Ores Concentrating
  • Copper Oxide Processing to final metal

76
Copper Ores Concentrating
  • Copper Oxide Processing - LPF

77
Copper Ores Concentrating
  • T.O.R.C.O. Processing of Copper Ores

78
Copper Downstream Processing
  • Kidd-Creek Smelter flowsheet

79
Copper Anode Casting Wheel
80
Zaldivar Copper Heap Leach
81
Heap Leach Operation
Installing a Plastic Membrane Liner
82
Thickener - tailings
83
Thickeners - zones
84
Marine Tailing Disposal
85
Thickener Area Calculation
  • where
  • A thickener area (m2)
  • W dry solids mass flow (tph)
  • F liquidsolid ratio of feed
  • D liquidsolid ratio of discharge
  • R settling rate (m/hr)
  • S liquid S.G. (kg/L)

86
Drum Filters
87
Disk Filter
88
Pressure Filter - Larox
89
Rotary Dryers
90
Rotary Kiln
91
Mill Control Room
Carlin Mine, Nevada
92
Questions?
93
Dissolution of Gold in CyanideElsner's Equation
94
Precipitation of Au from Solution
95
Downstream Processing
  • Gold processing options

96
Downstream Processing
  • Nickel
  • Typical Mine/Mill Treatment

97
Downstream Processing
  • Nickel
  • Matte Separation processing

98
Downstream Processing
  • Uranium Ore processing

99
Downstream Processing
  • Coal processing

100
Downstream Processing
  • Coal processing

101
Downstream Processing
  • Coal processing

102
Downstream Processing
  • Coal processing

103
Downstream Processing
  • Coal processing
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