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Re select the shaker
Re selection shaker, also known as gravity beneficiation shaker. It refers to the beneficiation method that utilizes the differences in relative densi
Product details
Processing Materials
Re selection shaker, also known as gravity beneficiation shaker. It refers to the beneficiation method that utilizes the differences in relative density, particle size, and shape between the sorted mineral particles, as well as their different velocities and directions of movement in the medium (water, air, or other liquids with higher relative densities), to separate them from each other.
Application scope
The reselection shaker is mainly used to select mineral raw materials with significant density differences between useful minerals and gangue, such as tungsten, tin ore, and gold ore. For coal, reselection is the most important method of coal selection.
Advantages and characteristics
1. Low production cost;
2. The particle size range of materials that can be processed is wide, with coarse ones up to several hundred millimeters and fine ones up to 0.02mm;
3. Low environmental pollution and easy dehydration of products. However, for ores smaller than 0.1mm and coal smaller than 0.5mm, the beneficiation efficiency and equipment processing capacity are relatively low.
product mix
Compared with other beneficiation methods, the reselection shaker has the advantages of large processing capacity, wide particle size range, simple equipment structure, no consumption of valuable production materials, low operating costs, and no pollution. Therefore, it is widely used in the beneficiation of tungsten and tin ores. It is also widely used in the selection of ferrous metals (iron, manganese, chromium), rare metals (tantalum, niobium, thorium, zirconium, titanium, etc.), and precious metal ores.
The re-election shaker is also the main method for coal beneficiation. The re-election shaker is also used to select non-metallic minerals such as coal bearing pyrite, apatite, diamond, asbestos, etc. For non-ferrous metal ores (copper, lead, zinc, etc.) that are mainly treated by flotation, heavy medium beneficiation can also be used to remove coarse gangue or surrounding rocks in advance to achieve preliminary enrichment. The classification, dehydration and other operations related to re-election are almost indispensable in all beneficiation plants.
Technical Parameter
|
Specification and Model |
Type of Bed Surface |
Surface Dressing Area (m3) |
Bed size/length Length (mm) |
Bed size/transmission end width Width (mm) |
Bed size/Concentrate Eed Width (mm) |
Capacity (t/h) |
Mineral concentration Concentration(%) |
Stroke Travel (mm) |
|
LY-110×500×430 |
Three types of bed surfaces to choose from
|
0.5 |
1100 |
850 |
430 |
0.05-0.2 |
10-30 |
9-17 |
|
LY-2100×1050×850 |
1.95 |
2100 |
1050 |
500 |
0.3-0.8 |
12-28 |
||
|
LY-3000×1620×1360 |
4.08 |
3000 |
1320 |
1100 |
0.4-1.5 |
6-30 |
||
|
6S-4450×1855×1546 |
Coarse sand bed surface |
7.6 |
4500 |
1850 |
1550 |
1-1.2 |
20-30 |
16-22 |
|
Fine sand bed surface |
7.6 |
4500 |
1850 |
1550 |
0.5-1 |
18-25 |
11-16 |
|
|
Mud bed surface |
7.6 |
4500 |
1850 |
1550 |
0.3-0.5 |
15-20 |
8-16 |
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