Gravity Beneficiation Process
Fluorspar Beneficiation Equipment is an industrial method of separating two components, either a suspension, or dry granular mixture where separating the components with gravity is sufficiently practical: I. E. The components of the mixture have different specific weight. All of the gravitational methods are common in the sense that they all use gravity as the dominant force. Gravity separation is used in a wide variety of industries, and can be most simply differentiated by the characteristics of the mixture to be separated - principally that of 'wet' i. E. - a suspension versus 'dry' -a mixture of granular product. Often other methods are applied to make the separation faster and more efficient, such as flocculation, coagulation and suction. The most notable advantages of the gravitational methods are their cost effectiveness and in some cases excellent reduction.
Fluorspar Beneficiation Equipment Brief Introduction:
Application: Gravity separation is Mainly used for processing tungsten ore, tin ore, manganese ore, mercury ore, titanium ore, lead ore, titanium niobium ore, galena ore, Celestine, barite, fluorspar, pyritic, limonite, hematite, antimony ore, chrome ore etc.
Fluorspar Beneficiation Equipmen tFeatures:
Introduction: Gravity separation is the best proven and accepted technique of concentrating minerals and has been used as a primary form of mineral concentration. Due to its high efficiency and low cost, gravity separation is always the first consideration in any flow sheet development program and always features in any flow sheet where there is sufficient differences between the specific gravity and particle size of the valuable and gangue minerals. Gravity separation is generally used for a wide range of commodities including gold, tin, tantalum, lead/zinc, platinum, mineral sands and etc.
The equipment used for gravity separation are jigger, shaking table, spirals, centrifugal, etc.
Zenith design and manufacture mineral beneficiation equipments with advanced techniques, expertise, rich experience and practical feedbacks, owning a professional and experienced engineer team. We supply suitable and practical equipments from crushing, grinding to beneficiation machines. XKJ Company can supply many ore beneficiation plants as: Gold ore, copper ore, iron ore, lead-zinc ore, manganese ore, bauxite ore, etc.
fluorspar beneficiation equipment parameters:
| Model |
JT-0.57 |
JT1-1 |
JT2-2 |
JT3-1 |
JT4-2 |
JT5-2 |
| Jigging Chamber |
Section Form |
Trapezium |
Trapezium |
Rectangle |
Trapezium |
Rectangle |
Trapezium |
| Length*Width(mm) |
450~750×950 |
450~900×1500 |
1070×1070 |
960~2000×1950 |
1510×1510 |
1200~2000×3150 |
| Column Number |
Single |
Single |
Single |
Single |
Single |
Single |
| Jig Chambers(psc) |
1 |
1 |
2 |
1 |
2 |
2 |
| Single chamber area (m²) |
0.57 |
1 |
1.14 |
3.3 |
2.43 |
2.12(single chamber) 2.77(double chamber) |
| Total area(m²) |
0.57 |
1 |
2.28 |
3.3 |
4.86 |
5 |
| Stroke Coefficient |
0.57 |
0.64 |
0.45 |
1 |
0.58(single power) 0.45(dual power) |
0.58(single power) 0.45(dual power) |
| Max feed size(mm) |
6 |
5 |
10 |
<20 |
8, plus sieve automatic discharge <60 |
8, plus sieve automatic discharge <60 |
| Capacity(t/h) |
1~2.5 |
2~3 |
4~8 |
10~15 |
12~16 |
10~20 |
| Water Consumption(m³/h) |
1~2 |
2~3 |
2~4 |
3~6 |
4~8 |
5~10 |
| Separator |
Stroke(mm) |
12,17,21 |
12,17,21 |
12,17,21 |
10~47 adjustable |
10~30 |
15,20,25 |
| Jig frequency(min-1) |
60~156 adjustable |
60~156 adjustable |
60~156 adjustable |
80~100 adjustable |
80~120 adjustable |
80~120 adjustable |
| Motor |
Model |
YCT 132-4B |
YCT 100L-6 |
YCT32-4 |
YCT-4B |
YCT 160-4B |
YCT 200-4A |
| Power (kw) |
1.5 |
2.2 |
3 |
5.5 |
5.5 (dual power) 7.5 (single power) |
5.5 (dual power) 7.5 (single power) |
| Overall Dimension(Length*Width*Height)mm |
1530×780×1550 |
2060×1112×1890 |
2870×1520×1880 |
2662×2000×3030 |
4240×1990×2750 |
3940×2006×2580 |
| Weight(kg) |
612 |
989 |
1637 |
3260 |
3500 |
3854 |
| Notes: The above data is only for your reference, capacity and hutch water varying from ore granularity, ore property and operating condition. |
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