CN106521183A - Method for smelting high-arsenic copper sulfide ore - Google Patents

Abstract

The invention provides a method for smelting high-arsenic copper sulfide ore. The method includes the following steps that high-arsenic copper sulfide concentrate, quartz sand and a CaO-containing material are mixed, so that a mixed material is obtained; and the mixed material and reactant gas containing oxygen are mixed and heated, the reaction is carried out, and accordingly the copper matte, slag and flue gas containing SO2 can be obtained. By the adoption of the method, the CaO and SiO2 are added in the smelting process, the concentrate material, the CaO and the SiO2 are reacted at a high temperature, arsenic sulfide in the concentrate is oxidized at first and then is subjected to a chemical reaction with a fluxing material CaO, the calcium-based compound of arsenic, ferric arsenate and other modes are generated to enter into the slag phase, and therefore the arsenic content in the copper matte is reduced.

Description

A kind of method of smelting of high arsenic copper-sulphide ores

Technical field

The invention belongs to non-ferrous metal pyrometallurgical smelting technical field, and in particular to a kind of melting side of high arsenic copper-sulphide ores Method.

Background technology

The pyrometallurgical smelting of copper point melting, blowing, four parts of anode refining and electrorefining.Mainly take off in fusion process Go outside substantial amounts of sulphur and iron, will also remove the impurity elements such as arsenic, antimony, bismuth, lead, zinc as far as possible.In the smelting process of metal, slag making It is a very important link, it may be said that it is exactly slagging process to make copper process, makes the impurity such as more arsenic, antimony enter slag, with The impurity content of sulfonium is reduced, and metallurgical slag there must also be good fluidity and the features such as easily separated metal (sulfonium).

With the exhaustion of resource, lean ore is more and more, corresponding impurity content especially arsenic content more and more higher, when arsenic When content exceeds technological design scope, the copper matte regulus arsenic content that melting is produced will be raised, and corresponding anode copper arsenic content can also rise Height, this has just increased the pressure of the net liquid of electrowinning process, and the quality of tough cathode is affected when serious.Currently for the process master of high arsenic content ore To make the arsenic content after dispensing reach technological design scope and be produced by allocating a small amount of high arsenic content ore into, this method is not suitable for The process of extensive high arsenic content ore.

And flash smelting technology accounts for world's pyrogenic process copper and produces as the maximum technology of most advanced, disposal ability in the world at present More than the 60% of amount, is the smelting technique of generally acknowledged " eating flour and rice " in the world, typically requires that copper concentrate impurity content is low, such as arsenic one As will be less than 0.3%, the blister copper and anode copper arsenic content for otherwise producing is higher, affect electrolysis production.And present copper concentrate It is general to be difficult to meet this design requirement, anode copper arsenic content overproof is caused, electrolysis production is affected, how to be developed one kind and can locate The Copper making technology that high impurity is particularly high arsenic-and copper-bearing concentrate is managed, becomes current technical staff's concerned issue.

The content of the invention

In view of this, the technical problem to be solved in the present invention is to provide a kind of method of smelting of high arsenic copper sulfide concentrate, The method of smelting that the present invention is provided can process the high copper sulfide concentrate of arsenic content, and the discard slag with copper of output is high, and arsenic content It is low.

The invention provides a kind of method of smelting of high arsenic copper sulfide concentrate, comprises the following steps：

(A) high arsenic copper sulfide concentrate, quartz sand and material containing CaO are mixed, obtains mixed material；

(B) mixed material is added into smelting furnace with oxygen-containing reacting gas, is reacted, obtain matte, slag and containing SO₂ Flue gas.

Preferably, the step (B) is specially：

(B1) mixed material, is that 10 °～40 ° conveying pipelines (3) enter fluidisation charging gear (2), Jing streams through inclination angle The fluidization for changing charging gear (2) enters copper concentrate nozzle (1)；

(B2) mixed material and the oxygen-containing reacting gas are mixed into flash in the presence of copper concentrate nozzle (1) Furnace reaction tower is reacted in (4), obtains matte, slag and containing containing SO₂Flue gas.

Preferably, high arsenic copper sulfide concentrate 0.3wt% containing the arsenic～1.8wt%.

Preferably, the material containing CaO is selected from quick lime, lime stone or gypsum.

Preferably, the addition containing CaO materials is the 1wt%～10wt% of the mixed material quality.

Preferably, in the mixed material, water content is less than 0.3wt%.

Preferably, the oxygen content of the oxygen-containing reacting gas is 50%～95%.

Preferably, the grade of the matte is 50%～70%.

Preferably, 0.2wt% containing arsenic～0.6wt% in the matte.

Compared with prior art, the invention provides a kind of method of smelting of high arsenic copper sulfide concentrate, comprises the following steps： High arsenic copper sulfide concentrate, quartz sand and material containing CaO are mixed, mixed material is obtained；By the mixed material and oxygen-containing reaction Gas adds smelting furnace, is reacted, and obtains matte, slag and containing SO₂Flue gas.The present invention is by adding during smelting CaO and SiO₂, make concentrate material, CaO and SiO₂React at high operating temperatures, the sulfide of the arsenic in concentrate is first oxidized, afterwards with There is chemical reaction in sludging flux CaO, generate and enter slag phase with forms such as the Cabase compound of arsenic, ferric arsenates, reduce in copper matte regulus The content of arsenic.

As a result show, the grade of the matte of the method for smelting output that the present invention is provided is 50%～70%, in matte, contain arsenic 0.2wt%～0.6wt%, the slag rate that enters of arsenic are more than 70%.

Description of the drawings

The structural representation of the high arsenic copper sulfide concentrate smelting apparatus that Fig. 1 is provided for the present invention.

Wherein：1 is copper concentrate nozzle, and 2 are sulfuration charging gear, and 3 is conveying pipeline, and 4 is flash furnace reaction tower.

Specific embodiment

The invention provides a kind of method of smelting of high arsenic copper-sulphide ores, comprises the following steps：

High arsenic copper sulfide concentrate, quartz sand and material containing CaO are mixed, mixed material is obtained；

By the mixed material and oxygen-containing reacting gas Hybrid Heating, reacted, obtained matte, slag and containing SO₂Cigarette Gas.

The copper sulfide concentrate that the present invention is provided is high arsenic copper sulfide concentrate, in the present invention, the high arsenic copper sulfide concentrate In 0.3wt% containing arsenic～1.8wt%, preferably 0.4wt%～1.6wt%, in certain specific embodiments of the invention, institute 0.4wt% containing arsenic in high arsenic copper sulfide concentrate is stated, in other specific embodiments of the present invention, the high arsenic copper sulfide essence 0.6wt% containing arsenic in ore deposit, in other specific embodiments of the present invention, contains arsenic in the high arsenic copper sulfide concentrate 0.8wt%, in other specific embodiments of the present invention, 1.0wt% containing arsenic in the high arsenic copper sulfide concentrate, at this In other bright specific embodiments, 1.6wt% containing arsenic in the high arsenic copper sulfide concentrate.

In the present invention, the high arsenic copper sulfide concentrate needed drying, drying moisture to be less than before melting is carried out 0.3wt%.

Dry high arsenic copper sulfide concentrate, quartz sand and material containing CaO are mixed, mixed material is obtained.

In order to reduce the quantity of slag and ensure certain impurity-removing rate, thing containing calcium oxide is added in copper-sulphide ores fusion process Material, the material containing CaO are selected from quick lime, lime stone or gypsum.

The addition containing CaO materials is the 1wt%～10wt% of the mixed material quality, preferably 2wt%～ 8wt%, more preferably 4wt%～6wt%.

In the mixed material for obtaining, water content is less than 0.3wt%.

The mixed material is added into smelting furnace with oxygen-containing reacting gas, is reacted, obtain matte, slag and containing SO₂'s Flue gas.

, art technology not specifically limited in the smelting furnace carried out used by melting to high arsenic copper sulfide concentrate of the invention Smelting furnace known to personnel, can be Flash Smelting Furnace, or molten bath stove.According to the difference of smelting equipment, melted During refining, from the smelting time and smelting temperature that match with equipment.

In the present invention, it is preferred to the high arsenic copper sulfide provided for the present invention using the smelting apparatus with Fig. 1 structures, Fig. 1 The structural representation of concentrate smelting apparatus.

In Fig. 1,1 is copper concentrate nozzle, and 2 are sulfuration charging gear, and 3 is conveying pipeline, and 4 is flash furnace reaction tower.

The high arsenic copper sulfide concentrate smelting apparatus that the present invention is provided mainly include conveying pipeline 3, flash furnace reaction tower 4, connection The copper concentrate nozzle 1 of conveying pipeline 3 and flash furnace reaction tower 4, the position that copper concentrate nozzle 1 is connected with conveying pipeline 3 is provided with fluidisation Charging gear 2.

As shown in Figure 1.The effect of fluidisation charging gear 2 in the present embodiment, is set up, is in order that mixed material uniformly can More uniformly enter in the material channel of copper concentrate nozzle 1, and then more uniformly enter in reaction tower, so as to maximum The generation for preventing segregation phenomena of degree, makes reaction effect more project.

After mixed material is obtained, the mixed material is preferably delivered to the smelting apparatus with Fig. 1 structures by the present invention In carry out melting reaction.

(B1) mixed material, is that 10 °～40 ° conveying pipelines (3) enter fluidisation charging gear (2), Jing streams through inclination angle The fluidization for changing charging gear (2) enters copper concentrate nozzle (1)；

(B2) mixed material and the oxygen-containing reacting gas are mixed into flash in the presence of copper concentrate nozzle (1) Furnace reaction tower is reacted in (4), obtains matte, slag and containing containing SO₂Flue gas.

Specifically, the present invention by mixed material, is entered for 10 ° of -40 ° of conveying pipelines (3) through inclination angle when using Flash Smelting Enter to fluidize charging gear (2), the fluidization of Jing fluidisations charging gear (2) uniformly enters copper concentrate nozzle (1)；It is simultaneously oxygen-containing Reacting gas Jing pipelines enter copper concentrate nozzle (1)；Mixed material and oxygen-containing reacting gas are in the presence of copper concentrate nozzle (1) Reacted in flash furnace reaction tower (4), produce matte, slag and contain SO₂Flue gas.

In order to improve flue gas concentration and reaction efficiency, and ensure the heat balance reacted, typically lead in smelting process The oxygen-containing reacting gas oxygen content for entering is 50%～95%, and the oxidation for being so also beneficial to impurity in copper concentrate enters smelting slag In, reduce impurity content in matte.In the present invention, the oxygen content of the oxygen-containing reacting gas is 50%～95%, preferably 60%～90%, more preferably 70%～80%.

Mixed material and reacting gas further mix in furnace reaction tower smelting, and the rising with temperature decompose and Slag making reaction is carried out into sedimentation basin after oxidation, matte, slag is generated and is contained SO₂Flue gas, wherein, matte and slag enter reaction tower The settling tank of bottom carries out sedimentation separation, containing SO₂Flue gas through smelting furnace uptake flue discharge.According to above-mentioned method of smelting, The grade of the matte for obtaining is 50%～70%.0.2wt% containing arsenic～0.6wt% in the matte.

The chemical reaction occurred in smelting equipment is as follows：

Decomposition reaction：

2FeS₂→2FeS+S₂

4CuFeS₂→2Cu₂S+2FeS+S₂

CaCO₃→CaO+CO₂

Oxidation reaction：

4CuFeS₂+5O₂→2Cu₂S·FeS+2FeO+4SO₂

4FeS₂+11O₂→2Fe₂O₃+8SO₂

3FeS₂+8O₂→2Fe₃O₄+6SO₂

CuS+O₂→Cu₂S+SO₂

2Cu₂S+3O₂→2Cu₂O+2SO₂

2As₂S₂+7O₂→2As₂O₃+4SO₂

Make sulfonium reaction：

FeS+Cu₂O→FeO+Cu₂S

Slag making is reacted：

2FeO+SiO₂→2FeO·SiO₂

As₂O₃+3CaO+O₂→Ca₃(AsO₄)₂

By CaO and SiO is added during smelting₂, make concentrate material, CaO and SiO₂Into in stove, in high temperature shape React under state.The sulfide of the arsenic in concentrate is first oxidized, and chemical reaction occurs with sludging flux CaO afterwards, generates with the calcium of arsenic The forms such as based compound, ferric arsenate enter slag phase, reduce the content of arsenic in copper matte regulus.

Contain Fe elements in the high arsenic copper-sulphide ores, it is of the invention when the preparation of stove material is entered, by Fe in mixed material Quality and SiO₂Mass ratio be 1：(0.6～0.9) quartz sand is added, the FeO produced in making course of reaction forms slag, and sends out Raw 2FeO+SiO₂→2FeO·SiO₂Reaction, it is ensured that the viscosity of smelting slag is relatively low, with preferable mobility, is conducive to smelting slag Separate with copper matte regulus, reduce the content of copper in smelting slag.By controlling Fe/SiO in slag₂Ratio, working the slag bulk flow Dynamic property, beneficial to discharge.

Concrete reaction is as follows：

CaCO₃→CaO+CO₂

2As₂S₂+7O₂→2As₂O₃+4SO₂

As₂O₃+3CaO+O₂→Ca₃(AsO₄)₂

Also a small amount of As₂O₃The Fe for generating can be aoxidized with concentrate₂O₃, generate ferric arsenate.Reaction is as follows：

As₂O₃+3Fe₂O₃+O₂→FeAsO₄

The method of smelting that the present invention is provided can process the copper concentrate containing arsenic 0.3%～1.8%, and the matte of output is low containing arsenic In 0.4%；Also, the slag good fluidity for obtaining, Copper in Slag is stable and copper content is low；The method of smelting processes high arsenic copper-sulphide ores Ability is big, is adapted to large industrialized production.

As a result show, the grade of the matte of the method for smelting output that the present invention is provided is 50%～70%, in matte, contain arsenic 0.2wt%～0.6wt%, the slag rate that enters of arsenic are more than 70%.

For a further understanding of the present invention, the melting side of the high arsenic copper-sulphide ores present invention provided with reference to embodiment Method is illustrated, and protection scope of the present invention is not limited by the following examples.

Embodiment 1

Copper sulfide concentrate 100t containing arsenic 0.4%, allocates 18t quartz sands and 2.5t calcium lime powders into, through mixing, is mixed Compound material, the mixed material are that 15 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisation charging gears through inclination angle (2) fluidization enters copper concentrate nozzle (1)；

Mixed material and oxygen-rich concentration are that 80% reacting gas is mixed in the presence of copper concentrate nozzle (1) entrance Temperature is 1280 DEG C of flash furnace reaction tower, as the rising of mixed material and reacting gas temperature starts to decompose, aoxidizes Reaction, finally enters bottom precipitation pond, output 36.7t matte, and slag and containing SO₂Flue gas, wherein matte contain Cu68%, contain As0.25%, the slag rate that enters of arsenic is 71.2%.

Embodiment 2

Fluidisation copper concentrate 100t containing arsenic 0.6%, allocates 16t quartz sands and 4t calcium lime powders into, through mixing, is mixed Material, the mixed material are that 20 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisations charging gear (2) through inclination angle Fluidization enter copper concentrate nozzle (1)；

Mixed material and with the reacting gas that oxygen-rich concentration is 86% be mixed in the presence of copper concentrate nozzle (1) into Enter the flash furnace reaction tower that temperature is 1300 DEG C, start to decompose with the rising of mixed material and reacting gas temperature, oxygen Change reaction, finally enter bottom precipitation pond, output 35.7t matte, and slag and containing SO₂Flue gas, wherein matte contains Cu67.2%, containing As0.32%, the slag rate that enters of arsenic is 77.9%.

Embodiment 3

Fluidisation copper concentrate 100t containing arsenic 0.8%, allocates 17t quartz sands and 6t calcium lime powders into, through mixing, is mixed Material, the mixed material are that 30 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisations charging gear (2) through inclination angle Fluidization enter copper concentrate nozzle (1)；

Mixed material and together with the reacting gas that oxygen-rich concentration is 84% into the reaction of Flash Smelting Furnace that temperature is 1300 DEG C Tower, starts to decompose with the rising of mixed material and reacting gas temperature, oxidation reaction, finally enters bottom precipitation pond, Output 36t matte, and slag and contain SO₂Flue gas, wherein matte contain Cu65.2%, containing As0.38%, the slag rate that enters of arsenic is 70.2%.

Embodiment 4

Copper sulfide concentrate 100t containing arsenic 0.4%, allocates 18t quartz sands, 2.5t calcium lime powders and a small amount of flue dust into, through mixed Close, obtain mixed material, the mixed material is that 35 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisations through inclination angle The fluidization of charging gear (2) enters copper concentrate nozzle (1)；

Mixed material and together with the reacting gas that oxygen-rich concentration is 80% into the reaction of Flash Smelting Furnace that temperature is 1260 DEG C Tower, starts to decompose with the rising of mixed material and reacting gas temperature, oxidation reaction, finally enters bottom precipitation pond, Output 36.7t matte, and slag and contain SO₂Flue gas, wherein matte contain Cu68%, containing As0.25%, the slag rate that enters of arsenic is 71.2%.

Embodiment 5

Fluidisation copper concentrate 100t containing arsenic 0.6%, allocates 16t quartz sands, 4.5t agstones and a small amount of flue dust into, through mixed Close, obtain mixed material, the mixed material is that 30 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisations through inclination angle The fluidization of charging gear (2) enters copper concentrate nozzle (1)；

Mixed material and together with the reacting gas that oxygen-rich concentration is 58% into the reaction of Flash Smelting Furnace that temperature is 1300 DEG C Tower, starts to decompose with the rising of mixed material and reacting gas temperature, oxidation reaction, finally enters bottom precipitation pond, Output 35.7t matte, and slag and contain SO₂Flue gas, wherein matte contain Cu67.2%, containing As0.29%, the slag rate that enters of arsenic is 77.9%.

Embodiment 6

Fluidisation copper concentrate 100t containing arsenic 1%, allocates 17t quartz sands, 7.5t agstones and a small amount of flue dust into, through mixed Close, obtain mixed material, the mixed material is that 25 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisations through inclination angle The fluidization of charging gear (2) enters copper concentrate nozzle (1)；

Mixed material and together with the reacting gas that oxygen-rich concentration is 88% into the reaction of Flash Smelting Furnace that temperature is 1240 DEG C Tower, starts to decompose with the rising of mixed material and reacting gas temperature, oxidation reaction, finally enters bottom precipitation pond, Output 36t matte, and slag and contain SO₂Flue gas, wherein matte contain Cu65.2%, containing As0.33%, the slag rate that enters of arsenic is 79.2%.

Embodiment 7

Fluidisation copper concentrate 100t containing arsenic 1.6%, allocates 15.5t quartz sands and 9.5t calcium lime powders into, through mixing, obtains Mixed material, the mixed material are that 40 ° of conveying pipelines (3) enter fluidisation charging gear (2), Jing fluidisation charging gears through inclination angle (2) fluidization enters copper concentrate nozzle (1)；

Mixed material and together with the reacting gas that oxygen-rich concentration is 95% into the reaction of Flash Smelting Furnace that temperature is 1250 DEG C Tower, starts to decompose with the rising of mixed material and reacting gas temperature, oxidation reaction, finally enters bottom precipitation pond, Output 36t matte, and slag and contain SO₂Flue gas, wherein matte contain Cu68%, containing As0.43%, the slag rate that enters of arsenic is 84.7%.

The above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should It is considered as protection scope of the present invention.

Claims (9)

1. a kind of method of smelting of high arsenic copper sulfide concentrate, it is characterised in that comprise the following steps：

(A) high arsenic copper sulfide concentrate, quartz sand and material containing CaO are mixed, obtains mixed material；

(B) mixed material is added into smelting furnace with oxygen-containing reacting gas, is reacted, obtain matte, slag and containing SO₂Cigarette Gas.

2. method of smelting according to claim 1, it is characterised in that the step (B) is specially：

(B1) mixed material, is that 10 °～40 ° conveying pipelines (3) enter fluidisation charging gear (2) through inclination angle, Jing fluidize to The fluidization of material device (2) enters copper concentrate nozzle (1)；

(B2) in the presence of copper concentrate nozzle (1) to be mixed into Flash Smelting Furnace anti-for the mixed material and the oxygen-containing reacting gas Reacted in answering tower (4), obtained matte, slag and containing SO₂Flue gas.

3. method of smelting according to claim 1, it is characterised in that the high arsenic copper sulfide concentrate 0.3wt% containing arsenic～ 1.8wt%.

4. method of smelting according to claim 1, it is characterised in that the material containing CaO selected from quick lime, lime stone or Gypsum.

5. method of smelting according to claim 1, it is characterised in that the addition containing CaO materials is the mixing 1wt%～the 10wt% of quality of material.

6. method of smelting according to claim 1, it is characterised in that water content is less than 0.3wt% in the mixed material.

7. method of smelting according to claim 1, it is characterised in that the oxygen content of the oxygen-containing reacting gas is 50%～ 95%.

8. method of smelting according to claim 1, it is characterised in that the grade of the matte is 50%～70%.

9. method of smelting according to claim 1, it is characterised in that 0.2wt% containing arsenic～0.6wt% in the matte.