Copper beneficiation and smelting

November 22, 2019

Copper minerals are mainly primary minerals, so it is easy to use flotation to concentrate concentrates. Grade and amount of copper concentrate pyrite symbiotic related copper grade between 20% to 30%, Fe 20% to 30% are between 20% to 40% sulfur.

Fire method is the main technology of copper smelting. After the concentrate is selected for smelting, the sulfur is oxidized to sulfur dioxide, and most of the iron is oxidized to oxide and the gangue together becomes slag. Copper and other non-ferrous metals and the remaining iron sulfide generation, known as matte (matte). The matte is then oxidized and removed by blowing sulfur to obtain crude copper, which is further refined and cast into an anode plate, and an electrolytic copper product is obtained by electrolysis. Volatile symbiotic elements are recovered in soot, and precious metals are recovered in the anode mud. The advantage of the fire method is that the heat generated by the oxidation of sulfur and iron is fully utilized; the recovery rate of the precious metal is high; the slag is stable; and the environmental impact is small. The disadvantage is that it is easy to cause air pollution; it is restricted by the sulfuric acid market. The fire method has the characteristics that the higher the grade of the concentrate, the larger the scale, the better the economic index.

The output of the world's major copper producing countries is shown in Table 1. Since copper is very stable and is not oxidized in the air, its recycling rate is high.

Table 1 Production of major copper producing countries in the world in 2000 (10,000 t)

country

Wet method

Smelting

regeneration

total

country

Wet method

Smelting

regeneration

total

Australia

10

38.7

48.7

Mexico

4.78

34

1.5

40.3

Canada

49.1

6.1

55.1

Peru

12.7

32.4

45.1

Chile

137.2

129.6

266.8

Poland

46.6

2

48.2

China

106

34

140

Russia

64

20

84

Germany

33.5

37.5

71

Spain

25.1

6.5

31.6

Iran

1.4

13

14.4

United States

55.7

103

20.8

179

Japan

129

14.7

143.7

Zambia

5.5

17

22.5

Korea

47.1

0.4

47.5

worldwide

249

1050

191

1500

As the consumption of plastic products continues to increase, the amount of waste plastics continues to increase. 

At present, Chinese waste plastics are mainly plastic film, plastic wire and woven goods, foam plastics, plastic packaging boxes and containers, daily-use plastic products, plastic bags and agricultural mulch films.

 In addition, the annual consumption of plastics for automobiles in China has reached 400,000 tons, and the annual consumption of plastics for electronic appliances and home appliances has reached more than 1 million tons. These products have become one of the important sources of waste plastics after being scrapped.

 It is understood that in 2011, the amount of waste plastics produced in China was about 28 million tons, and in 2012 it was 34.13 million tons. The storage, transportation and processing of these waste plastics, pending the application and post-treatment of the discarded plastic raw materials, will inevitably damage the environment and endanger the health of the people.

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