An example of a Solsk copper-molybdenum ore plant in Hakkas, Eastern Siberia, Russia

1 Introduction
Solsk is located in Khakas, Eastern Siberia, Russia. It was put into operation in 1952 and the current production scale is about 20 kt/d.
2. Deposits, ores and mining
Solsk is a reticular copper - molybdenum deposit, ore breccia type ore and disseminated metamorphic rock type ore, with a ratio of about 1:1.
The main metal ore minerals molybdenite, chalcopyrite, iron, molybdenum, China, covellite, chalcocite. Non-metallic minerals are mainly quartz .
The ore reserves in the deposit are about 10 Mt, the ore contains about 0.25% molybdenum, and the amount of molybdenum metal that can be recovered is about 15 kt (according to the first annual review).
The plant currently only processes sulfide ore. The oxidized ore heap will not be disposed of temporarily.
Open pit mining technology for mines, the largest nugget is 1200mm.
3. Mineral processing technology
Designed as a three-stage, closed-circuit crushing process, the production has been transformed into a four-stage, closed-circuit crushing process. The ore is broken from -1200mm to -25mm (42%-8mm).
The process of copper-molybdenum mixed flotation is shown in Figure 1.
The ore is coarsely ground, coarsely selected, once cleaned, and twice selected to obtain a copper-molybdenum mixed concentrate. The coarse grinding fineness is 60%-200 mesh.
Figure 1 Solsk copper-molybdenum mixed flotation process
The copper-molybdenum sorting and copper selection process is shown in Figure 2. The copper-molybdenum mixed concentrate is re-milled in three stages (mixed concentrate, secondary selected concentrate, 5 selected concentrates) and 8 selected processes. Sodium sulfide is used to inhibit copper minerals, and qualified molybdenum concentrate is obtained. mine.
The copper-molybdenum sorting sweeping tailings enters the copper selection circuit through a coarse, one sweep, two-selection process to obtain a qualified copper concentrate and produce waste tailings. [next]
Figure 2 Solsk copper-molybdenum sorting process
4. Mineral processing agent
The pharmaceutical system is shown in the table below.
Table Solsk Concentrator Chemicals System
Work
PH (lime)
Chemical consumption per ton of ore (g/t)
Isodecenol
Sodium sulfide
Butyl yellow
Grinding
Mixed flotation
Rough selection
PH=8.5~9.5
10
50~80
0.8~2
Sweep
5~8
0.8~2
Featured (I, II times)
PH=9.5~11
Stir
Priority flotation:
Molybdenum rough selection
Up to 1.8 (3)
Molybdenum concentrate selection (I and II)
Up to 2 (3)
Rough concentrate regrind, selected (I, II)
Molybdenum concentrate selection (II~VII)
Up to 2 (3)
Stir
Copper flotation:
Rough selection
PH=11~12.5
Up to 1
22~26
Elective
Up to 1
15
Total drug consumption (g/t)
(assuming the ore is similar)
950g/t
10
340
38.6~45
[next]
Continued on the table
Work
Chemical consumption per ton of ore (g/t)
Coal oil
Water glass
T-66
Zinc sulfate
Sodium cyanide
Grinding
0~20
Mixed flotation
40~50
40~55
7
10
Rough selection
25~40
40
Sweep
10~15
10~15
Featured (I, II times)
Moderate amount
100
Stir
Up to 40
Priority flotation:
Molybdenum rough selection
60
Molybdenum concentrate selection (I and II)
Rough concentrate regrind, selected (I, II)
150
Molybdenum concentrate selection (II~VII)
50
Stir
Copper flotation:
Rough selection
Elective
twenty two
Total drug consumption (g/t)
115~175
410~430
62
7
10
Note: Water glass is the consumption per ton of mixed concentrate in priority flotation, and xanthate is the consumption per ton of copper concentrate in copper flotation.
5, mineral processing indicators
The original ore grade is 0.25% Mo, the first coarse grinding fineness is 40%-200 mesh, the molybdenum concentrate grade is 48% Mo, the molybdenum recovery rate is 88.7%; the copper concentrate grade is 15.3% Cu, the copper recovery rate is 42%; the tailing grade 0.0056% Mo, 0.0722% Cu; power consumption: 18kw·h/t ore, water: 2.5m 3 /t ore, steel ball: 1.559kg/t ore, liner: 0.156kg/t ore.

Why do you need Spring Separator?

In today's efficiency, traditional manual separation is time-consuming and energy consuming. The Spring Separator fast solving the problem of spring winding,saving labor cost and improving efficiency.

The Spring Separator is the best tool to solve the small spring entanglement, and the spring separator machine is suitable for separating the small spiral springs which are entangled together by centrifugal vibration mode.




Spring Separator

Spring Separator,Separating Machine,Coil Spring Separator,Automatic Separating Machine

Dongguan Rener Automation Technologies Co.,Ltd , https://www.rener-automation.com