RU1772189C - Charge for accumulator scrap processing - Google Patents

Description

1

(21) 4902205/02 (22) 03.09.90 (46) 10.30.92, Bull. Number 40

(71) Institute of Electrochemistry, Ural Branch, USSR Academy of Sciences

(72) L.E. Ivanovsky, G.F. Kazantsev, B.P. Filin, N.M. Barbin and I.M., Fedorov

(56) Copyright certificate of the USSR No. 1046314, cl. C 22 V 7/02, 1982.

USSR copyright certificate No. 986947, cl. With 22V 7/00. 13/02, 1981.

USSR copyright certificate Mg 505723, cl. With 22V 7/00. 1973.

(54) MECHANISM FOR THE PROCESSING OF BATTERY SCRAP

(57) Usage: non-ferrous metallurgy, extraction of non-ferrous metals from waste. Essence: the mixture contains scrap and other lead waste, soda and as a reducing agent - sawdust in the amount of 5.22-8.41 m.h. and liquid petroleum products in an amount of 0.7-1.53 m.h. 100 ma.ch. lead waste. From petroleum products, fuel oil, oil or used oil is used. 3 s.p. f-ly.

The invention relates to non-ferrous metallurgy, in particular to processes for the processing of lead wastes generated in the manufacture of batteries and in the processing of battery scrap.

A known charge for processing lead production dusts containing lead production dusts, alkali metal salts and a carbon-containing reducing agent, characterized in that, in order to increase the degree of lead extraction and reduce operating costs, it contains alkaline metal production salts as alkali salts when the following ratio of components, wt.%: soda product of alumina production 20-40 carbonaceous reducing agent 3-12 dust of lead production the rest. m of such a mixture there is a high consumption of soda product, which significantly increases the cost of production, after melting the mixture a large amount of slag and sublimates is formed, which leaves 4, lead, there is a need for recycling.

A known charge for processing waste from the production of lead batteries containing soda, silica-containing material, lime, a carbon-containing reducing agent and waste from the production of batteries, characterized in that, in order to reduce losses of lead from slag and to reduce the dissolution rate of chromium lining, the mixture contains, wt.%: soda - 3-5. coke - 4-6, feldspar sand - 1,, 5; lime - 0.3-1.0, battery waste - the rest.

The disadvantage of such a charge is that during smelting the production of slag, dust and loss of lead with them is not excluded.

The closest in technical essence and in the achieved results is a charge for processing cumulum &

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ABOUT

scrap scrap melting. The mixture, including soda and a carbon reducing agent, is characterized in that in order to increase the extraction of antimony in antimony, lead, reduce the yield of sprudine, reduce the content of lead and antimony in the slag, it additionally contains lead-antimony - silica oxides and silica sand, accumulator scrap scrap in the following ratio of components

battery scrap 100

lead-antimony

oxides, -5-25

soda 5.5-26

silica sand 3-10

carbon containing

reducing agent 5.5-9.

The main disadvantage of such a charge is the presence in the smelting product of sprudine in the amount of 3-9% of the lead content in the accumulator scrap and slag, which contains 1.8-4.5% lead. Direct extraction of lead reaches 92-94.0%, antimony 85.5-90%, the rest goes to slag and sprudine.

The aim of the invention is to increase the recovery of lead, antimony and other metals from scrap batteries, and to improve the ecological environment.

The goal is achieved as follows: lead waste in the form of paste, defective plates and removals from boilers (the proportion of pure lead in defective plates is 20-24%, the rest of PbO and PbSCM, the proportion of lead in the paste does not exceed 60-80%, the rest is oxygen , sulfur and moisture, the most rich in lead is calcareous - about 85-90%, the rest of the oxygen in the composition of PbO, Pb04, Sb contains 3-6%, and Sn, As, Bi hundredths and thousandths of%) are mixed with a reducing agent, as wood sawdust and liquid fuel (oil, fuel oil, waste technical oils) are used, briquetted, dried they are burnt and loaded into a furnace containing a molten sodium and potassium carbonate.

Oxides and other lead compounds containing sulfur are reduced by a carbon-containing reducing agent, and oxygen and sulfur are removed from the melt in the form of CO, CO2. S02, ZOZ.

Therefore, no slag-forming compounds remain in the melt, all impurity compounds and useful components are reduced and transferred to blister lead, not exceeding their guest content.

The average composition of the obtained alloy was as follows: Sb 2.87-10.82; Sn 0.003-0.140; As 0.01-0.02; Bi 0.013-0.018; Si

0.045-0.15; Ag 0.0025-0.01: Fe 0.0003-0.0018; Pb is the rest.

Lead recovery was 99.0-99.7%. antimony - 96-98%. tin and bismuth

her pain is 90%.

The content of sawdust in the mixture ranged from 5.22 to 8.40 parts by weight, and liquid fuel from 0.71 to 1.54 parts by weight. per 100 parts of lead waste.

0 A decrease in the amount of sawdust in the charge leads to the scattering of briquettes, an increase in their number to incomplete combustion and the formation of unburned soot on the surface of the layer, its entrainment into ventilation, and the increase of Pb entrainment along with them.

A decrease in the content of liquid fuel in the form of used oil, fuel oil, and oil below 0.7% leads to incomplete reduction of lead and the formation of caviar in the form of small oxide kings of lead coated with oxide.

An increased amount of liquid fuel leads to its useless combustion on the surface of the melt, an excessive consumption of fuel5. environmental degradation.

Keeping the reductant within the specified limits allows you to completely restore the lead compound, simplifies

0 the preparation of the mixture, reduces cost while improving working conditions.

Of no small importance is the use of such waste as sawdust and petrochemical waste.

In 5 examples of a metal box, 72.5 kg of izgar was mixed from casting boilers, 58 kg of paste from sumps containing 25% moisture, 6.81 kg of wood sawdust, 2 kg of used oil, briquettes 50x50 mm in size were made. dried on a feed tray and 5-8 kg portions were loaded into a resistance furnace having 100 kg of a mixture of sodium and potassium carbonates as a melt.

5 At a temperature of 900 ° C, within 7.5 hours, 103 kg of lead of the following composition were obtained, wt.%: Sb 10.59; Sn 0.003; As 0.02; BI 0.0177; C, 0.049; Ag 0.0035; Fe 0.0003; Pb the rest.

0 Lead recovery was 99.2%,

antimony - 96%, tin and bismuth more than 90%. Example 2. In a metal box, in portions of 40-50 kg, 200 kg of weed, 269 kg of paste, 24.5 kg of wood sawdust and

5 7 kg of fuel oil, briquettes with a diameter of 50 mm were made and dried, then melted in a carbonate melt in a resistance furnace. In just 23.5 hours at T 1000 ° C, 410 kg of lead antimony alloy were obtained with a trace, content, wt.%: Sb 7.85; Sn

0.003; As 0.02; Bi 0.0126; Cu 0.053; Ag 0.003; Fe 0.005; Pb the rest.

Achieved recovery of 99.7% lead, 98% antimony, tin and bismuth more than 90%.

Example 3. In a metal box, 40.5 kg of splits and 30 kg of paste, 5.92 kg of sawdust and 0.5 kg of oil were mixed, briquettes with a diameter of 50 mm were made, dried and melted in a resistance furnace at a temperature of 1000-1060 ° C.

Received 63 kg of lead antimony alloy of the following composition,%: So 10.82; Sn 0.003; 810,0185; C, 0.15; Hell 0.0033; Fe 0.0005; Pb the rest.

The recovery of metals, taking into account the weighing error and the accuracy of the analyzes, was 99.5% for lead and 97% for antimony. tin and bismuth more than 90%.

Excess oil products leads to the formation of a column of flame, useless combustion of fuel, and if there is a lack of it, lead kings are formed in the molten salt, floating on the surface of liquid lead. During 2 days of work using liquid petroleum products and sawdust - no violations of the technology were noticed.

The advantage of this charge is the ability to recover waste

5 10

fifteen

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lead without the generation of wastes in the form of dust and slag, the absence of harmful sublimates of lead, reduced labor costs and the possibility of processing pulverized wastes and pastes.

Claims (4)

1. A charge for processing scrap battery containing accumulated scrap and other lead waste, soda and a carbon-containing reducing agent, characterized in that. in order to increase the recovery of lead, antimony and other metals and to improve the ecological environment, it contains sawdust in the amount of 5.22-8.41 parts by weight of carbon-containing reducing agent. and liquid petroleum products in an amount of 0.7-1.53 wt.h. per 100 parts by weight lead waste. 2. The mixture according to claim 1, characterized in that fuel oil is used as liquid petroleum products. 3. The mixture according to claim 1. characterized in that oil is used as liquid petroleum product. 4. The mixture according to claim 1, characterized in that used liquid oil is used as liquid oil products.