CN101280364A - Method for producing high-stibium crude lead - Google Patents
Method for producing high-stibium crude lead Download PDFInfo
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- CN101280364A CN101280364A CNA2008100584500A CN200810058450A CN101280364A CN 101280364 A CN101280364 A CN 101280364A CN A2008100584500 A CNA2008100584500 A CN A2008100584500A CN 200810058450 A CN200810058450 A CN 200810058450A CN 101280364 A CN101280364 A CN 101280364A
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- slag
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- lead
- sulfonium
- furnace charge
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The invention relates to a method for manufacturing antimony-rich lead bullion. The manufacturing technique process of the invention comprises furnace charge adding, heating up and melting, deslagging, iron chips adding and replacing, depositing and separating, sulphonium discharging, cooling down and lead obtaining. The furnace charge proportion adopts the proposal that auxiliary materials are required to be prepared for copper dross slag or ingot casting slag per 100 kg: 6 to 10 kg of soda, 2 to 4 kg of pulverized coal, antimony-bearing smoke, and 5 to 50 kg slag. The method has the advantages that the intermediate slag and the smoke produced in the manufacturing process of electrolytic lead and noble metal can be processed effectively, and the valuable metal such as Ag, Sb, Pb, etc. can be recycled effectively. The manufacturing method has the obvious advantages that the production efficiency is high, the labor intensity is low, and the production cost is low.
Description
Technical field:
The invention belongs to plumbous field of metallurgy, particularly relate to a kind of method of producing high-stibium crude lead.
Background technology:
In the electrolytic lead refining process, antimony forms the loose porous reticulated structure of strong yet at anode surface, and the parcel anode sludge makes it to have suitable adhesion strength and do not come off.The anode antimony content is low excessively, and the anode sludge is fragmentary coming off easily, makes the electrolytic solution muddiness, and precious metal is difficult for reclaiming, and separates out plumbous difficult quality guarantee; It is too high that anode contains the antimony amount, can make the anode sludge become hard and be difficult to scrub.Therefore, the total content of antimony in the lead anode and arsenic (Sb+As) is controlled at 0.8~2.0%.And it is lower through the resulting lead bullion antimony content of retailoring under normal conditions, need adjust it and satisfy manufacturing requirements, so many enterprises contain the high lead bullion of antimony or star metal and join in the lead anode to satisfy production requirement when the preliminary fire refining by buying a part, but because star metal market value height can cause electric lead anode production cost height.
In the precious metal leaching process output contain the antimony flue dust because complicated component, science and engineering skill in original place is very loaded down with trivial details, still not have to adopt directly with electric plumbous production process in the part copper scum silica frost of output or the method that the ingot casting slag is together handled the direct production high-stibium crude lead.
Summary of the invention:
Purpose of the present invention is just in order to overcome the weak point that above-mentioned prior art exists, and provide that a kind of technological process is simple, production cost is low, labour intensity is low, can the efficient recovery slag, valuable metals such as Ag, Sb in the flue dust, Pb; Some that utilize output in part copper scum silica frost, ingot casting slag and the precious metal leaching process of output in the electric plumbous production process contain the method for antimony flue dust, slag direct production high-stibium crude lead.
The present invention realizes its goal of the invention by the following technical solutions, and its production process is: add furnace charge-intensification fusing-slagging-Jia iron powder replacement-precipitate and separate-put sulfonium-lead of lowering the temperature-go out; Charge composition is that every 100Kg copper dross slag or ingot casting slag need be joined auxiliary material: contain antimony flue dust, slag 5~50Kg, soda 6~10Kg, fine coal 2~4Kg; Fire box temperature should keep 1100-1200 ℃ of furnace temperature, smelting time 7-10 hour more than 1000 ℃ during the furnace charge charging during the melting process; Stir it furnace charge fusing back, is warmed up to 1200-1300 ℃ of redeposition and begins slagging after half an hour; Put and add iron filings 0~15Kg by every 100Kg copper dross slag or ingot casting slag behind the slag and replace, time swap is 0.8-1 hour, makes its precipitate and separate, again through putting sulfonium, putting the sulfonium time is 0.4-0.8 hour, put reduce behind the sulfonium temperature to 400-600 ℃ can the output high-stibium crude lead, going out the plumbous time is 2-3 hour; The ratio of components of furnace charge the best of the present invention is: every 100Kg copper dross slag or ingot casting slag, and need join auxiliary material and be: contain antimony flue dust, slag 40Kg, soda 10Kg, fine coal 4Kg.Need not add iron filings replaces.
Technical characterstic of the present invention be in copper dross slag, ingot casting slag, allocate suitable proportion into contain materials such as antimony flue dust, slag, utilize converter to realize.
The invention has the beneficial effects as follows: technical solution of the present invention, have characteristics such as technology is simple, level of automation is high, production efficiency is high, labour intensity is low, production cost is low, simultaneously the remarkable advantage of valuable metals such as Ag, the Sb in efficient recovery slag, the flue dust, Pb.
Further set forth content of the present invention below in conjunction with accompanying drawing and example.
Description of drawings:
Fig. 1 is a technological process of production block diagram of the present invention.
Embodiment:
Production process of the present invention is: add furnace charge-intensification fusing-slagging-Jia iron powder replacement-precipitate and separate-put sulfonium-lead of lowering the temperature-go out; Charge composition is that every 100Kg copper dross slag or ingot casting slag need be joined auxiliary material: contain antimony flue dust, slag 5~50Kg, soda 6~10Kg, fine coal 2~4Kg; Fire box temperature should keep 1100-1200 ℃ of furnace temperature, smelting time 7-10 hour more than 1000 ℃ during the furnace charge charging during the melting process; Stir it furnace charge fusing back, is warmed up to 1200-1300 ℃ of redeposition and begins slagging after half an hour; Put and added iron filings 0~15Kg by every 100Kg copper dross slag or ingot casting slag behind the slag and replace, time swap is 0.8-1 hour, make its precipitate and separate, again after putting sulfonium, putting the sulfonium time is 0.4-0.8 hour, put reduce behind the sulfonium temperature to 400-600 ℃ can the output high-stibium crude lead, going out the plumbous time is 2-3 hour; The ratio of components of furnace charge the best is: every 100Kg copper dross slag, and need join auxiliary material and be: contain antimony flue dust, slag 40Kg, soda 10Kg, fine coal 4Kg.After adopting best ratio of components, the rate of recovery of valuable metals such as the Ag in slag, the flue dust, Sb, Pb is the highest, and need not carry out replacement process.
Copper dross slag or ingot casting slag are equipped with that contain antimony flue dust, slag and auxiliary material soda, the fine coal etc. of output carry out retailoring by converter in certain precious metal production process, thus the output high-stibium crude lead.
Concrete enforcement is as follows: embodiment one:
Adopt soda-iron filings method to handle copper dross slag or ingot casting slag in converter, its reaction formula is:
4PbS+4Na
2CO
3=4Pb+3Na
2S
3+Na
2SO
4+4CO
2
As
2O
5(Sb
2O
5)+4Na
2CO
3=2Na
2O·As
2O
5(Sb
2O
5)+3CO
2
PbS+Fe=Pb+FeS
Ratio of components (Kg):
Copper dross slag or ingot casting slag | Soda | Fine coal | Contain antimony flue dust, slag | Iron filings |
100 | 6 | 2 | 45 | 8 |
Allocating soda into is in order to reduce the fusing point of slag and sulfonium, to form the sodium sulfonium, reduce lead-in-dreg and make arsenic, antimony form sodium arseniate, sodium antimonate slag making, removing part arsenic, antimony;
Allocating fine coal into is in order to keep certain reducing atmosphere to be arranged in the stove, prevents sulfide oxidation, and making sulfonium with assurance has enough sulphur, and the effect of reduction PbO is arranged;
The PbO that contains in the antimony flue dust can make the volatilization of part arsenic, reduces the generation of speiss, improves lead recovery;
Iron filings are not allocate in the furnace charge, generally are to add iron filings after slagging in batches, and stir, and itself and sulfonium are fully reacted, and reduce lead tolerance in the sulfonium, till add-on is no longer had an effect with the iron filings that add.
Embodiment two ratio of components (Kg):
Copper dross slag or ingot casting slag | Soda | Fine coal | Contain antimony flue dust, slag | Iron filings |
100 | 8 | 3 | 20 | 15 |
Embodiment three ratio of components (Kg):
Copper dross slag or ingot casting slag | Soda | Fine coal | Contain antimony flue dust, slag | Iron filings |
100 | 10 | 4 | 40 | 0 |
According to production practice, the embodiment of the invention three is best ratio of components: copper dross slag 100Kg, contain antimony flue dust, slag 40Kg, and soda 10Kg, fine coal 4Kg, other auxiliary material can not add.Production process is: 14 tons of every stove charging capacitys, and reinforced half an hour, melting 7 hours, slagging, sulfonium 1.5 hours went out 12 hours/stove of total operation time plumbous 3 hours.Do not adopt iron filings, can reduce the iron powder replacement process.In whole fusion process, must strictly keep enough furnace temperature.
The ingredients technical economic target of the best of the present invention:
Silver direct yield: 84.66%; Silver raising recovery rate: 97.29%;
Vertical yield: 90.60%; Lead recovery: 96.05%.
By slag, dirt material with output behind the converter processing extraction gold and silver, the working practice of producing high-stibium crude lead confirms that this Technology is infallible.
Claims (2)
1, a kind of method of producing high-stibium crude lead, its production process is: add furnace charge-intensification fusing-slagging-Jia iron powder replacement-precipitate and separate-put sulfonium-lead of lowering the temperature-go out; Charge composition is that every 100Kg copper dross slag or ingot casting slag need be joined auxiliary material: contain antimony flue dust, slag 5~50Kg, soda 6~10Kg, fine coal 2~4Kg; Fire box temperature should keep 1100-1200 ℃ of furnace temperature, smelting time 7-10 hour more than 1000 ℃ during the furnace charge charging during the melting process; Stir it furnace charge fusing back, is warmed up to 1200-1300 ℃ of redeposition and begins slagging after half an hour; Put and add iron filings 0~15Kg by every 100Kg copper dross slag or ingot casting slag behind the slag and replace, time swap is 0.8-1 hour, makes its precipitate and separate, again through putting sulfonium, putting the sulfonium time is 0.4-0.8 hour, put reduce behind the sulfonium temperature to 400-600 ℃ can the output high-stibium crude lead, going out the plumbous time is 2-3 hour.
2, according to claim 1: the ratio of components of furnace charge the best is: every 100Kg copper dross slag or ingot casting slag, and need join auxiliary material and be: contain antimony flue dust, slag 40Kg, soda 10Kg, fine coal 4Kg.
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CN2008100584500A CN101280364B (en) | 2008-05-27 | 2008-05-27 | Method for producing high-stibium crude lead |
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CN101280364B CN101280364B (en) | 2010-09-15 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102643996A (en) * | 2012-05-23 | 2012-08-22 | 云南驰宏锌锗股份有限公司 | Method for producing lead bullion by means of copper dross side-blown smelting |
CN114540631A (en) * | 2022-01-28 | 2022-05-27 | 河南豫光金铅股份有限公司 | Method for recovering valuable metal by smelting copper dross |
-
2008
- 2008-05-27 CN CN2008100584500A patent/CN101280364B/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102643996A (en) * | 2012-05-23 | 2012-08-22 | 云南驰宏锌锗股份有限公司 | Method for producing lead bullion by means of copper dross side-blown smelting |
CN102643996B (en) * | 2012-05-23 | 2013-12-11 | 云南驰宏锌锗股份有限公司 | Method for producing lead bullion by means of copper dross side-blown smelting |
CN114540631A (en) * | 2022-01-28 | 2022-05-27 | 河南豫光金铅股份有限公司 | Method for recovering valuable metal by smelting copper dross |
CN114540631B (en) * | 2022-01-28 | 2024-02-02 | 河南豫光金铅股份有限公司 | Method for smelting copper dross and recovering valuable metal |
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