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A kind of method of preparing bismuth electrolyte with bismuth oxide slag

A technology of bismuth oxide slag and bismuth electrolyte, which is applied in the improvement of process efficiency, photography process, instruments, etc., can solve the problems of reduced metal recovery rate, low metal recovery rate, long process flow, etc., and achieves less backlog and metal recovery. The effect of high rate and short process flow

Active Publication Date: 2016-03-30
JIANGXI LONGTIANYONG NONFERROUS METAL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The pyromelting method is to mix the bismuth oxide slag with the flux and smelt it in a reverberatory furnace or a converter to directly produce crude bismuth. This method has been industrialized and has no waste water discharge, but it has low metal recovery rate, long process flow and processing Disadvantages such as low capacity, high cost and serious environmental pollution
The hydrochloric acid dissolution is to directly dissolve bismuth in the sulfuric acid and hydrochloric acid systems, lead and silver enter the leaching residue in the state of lead sulfate and silver chloride respectively, and the bismuth-containing solution is hydrolyzed to produce bismuth slag, which is then reduced and smelted to produce rough bismuth , this method can achieve comprehensive recovery of valuable metals, but there are still disadvantages such as low metal recovery rate, high treatment cost and large amount of wastewater.
[0005] The refining of crude bismuth mainly includes fire refining and electrolytic refining. The fire refining process mainly includes sulfur addition to remove copper, oxidation to remove arsenic and antimony, alkaline refining to remove tin, zinc to remove silver, and chloride to remove lead and zinc. Among them, the two processes that have the greatest impact on the entire process are the two processes of adding zinc to remove silver and chlorination to remove lead. These two processes not only take a long time, but also cause a significant reduction in metal recovery and environmental pollution.

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  • A kind of method of preparing bismuth electrolyte with bismuth oxide slag

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Experimental program
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Effect test

Embodiment 1

[0029] The massive bismuth oxide slag is crushed and finely ground to a particle size of 100% through a sieve with an aperture of 150 μm, and its main components are (%) by weight percentage: Bi33.0, Pb12.0, Cu2.8, Ag0.85 and Sb1.2, the rest is O; fluosilicic acid is an industrial grade reagent, the content of fluosilicic acid is 40%, lead powder and sulfuric acid are both industrial grade reagents.

[0030] Prepare 1800ml of fluosilicic acid solution with a concentration of 280g / L, add 600g of bismuth oxide powder with the above ingredients, keep the temperature at 60°C and the stirring speed at 200r / min, react for 3h and filter, the volume of the leachate is 1750ml, and its main component is (g / L ): Bi118.2, Pb40.8, Cu9.72 and Sb4.28, the leached slag weighs 60.5g after washing with water.

[0031] Add lead powder to the fluosilicic acid leaching solution to replace copper, keep the solution temperature at 60°C and 250r / min, add 60g of lead powder and react for 2 hours, then...

Embodiment 2

[0033] The massive bismuth oxide slag was crushed and finely ground to a particle size of 100% and passed through a sieve with an aperture of 44 μm. Prepare 3600ml of fluosilicic acid solution with a concentration of 400g / L, add 600g of bismuth oxide powder with the above ingredients, keep the temperature at 80°C and stirring speed at 250r / min, react for 6h and then filter to obtain fluosilicic acid leachate. Add lead powder with a copper mass content of 3.3 times to the fluosilicic acid leaching solution to replace copper, keep the solution temperature at 80°C and 250r / min, react for 1 hour, filter, and wash the replacement slag with water and then dry it. After removing copper, add sulfuric acid with a lead mass content of 1.60 times, react for 1 hour and then filter, keep the solution temperature at 75°C and 150r / min, add 50ml of sulfuric acid and react for 2 hours, then filter to obtain a bismuth electrolyte.

Embodiment 3

[0035] The massive bismuth oxide slag was crushed and finely ground to a particle size of 100% and passed through a sieve with an aperture of 220 μm. Prepare 1800ml of fluosilicic acid solution with a concentration of 560g / L, add 600g of bismuth oxide powder with the above ingredients, keep the temperature at 40°C and stirring speed at 200r / min, react for 1h and filter to obtain fluosilicic acid leachate. Add lead powder with a mass content of 3.5 times copper to the fluorosilicic acid leaching solution to replace copper, keep the solution temperature at 40°C and 150r / min, react for 2 hours, filter, and wash the replacement slag with water and then dry it. Add sulfuric acid with a lead mass content of 0.60 times to the solution after copper removal, react for 1 hour and then filter, keep the solution temperature at 40°C and 250r / min, add 50ml of sulfuric acid and react for 1 hour, then filter to obtain a bismuth electrolyte.

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Abstract

The invention provides a method for preparing bismuth electrolyte with bismuth oxide slag, which is characterized in that: the finely ground bismuth oxide slag is filtered after being leached in a fluorosilicate system, the leached slag is returned to the silver converter blowing process, and firstly added to the leaching solution Lead powder is used to replace the copper in the solution. After copper removal, sulfuric acid is added to the solution to recover lead, and the solution obtained after sulfuric acid sinking lead purification is the qualified bismuth electrolyte. The invention adopts the leaching of the fluorosilicic acid system to realize the separation of bismuth, lead, copper and silver, and not only has less backlog of precious metals, but also has a high metal leaching rate.

Description

technical field [0001] The invention relates to a hydrometallurgical process in the field of metallurgy, in particular to a hydrometallurgical method for effectively preparing bismuth electrolyte from bismuth oxide slag. Background technique [0002] The idea adopted in the pyroprocessing process of copper-lead anode slime is to use two processes of reduction smelting and oxidation refining to remove base metals, and to produce gold-silver alloys enriched with precious metals. The difficulty of metal oxidation is different, and it is oxidized in three stages. First, antimony, arsenic and lead are oxidized into the smoke dust, followed by blowing air to oxidize bismuth and lead to form bismuth oxide slag, and finally adding oxidants to make copper, selenium and tellurium Oxidation produces tellurium slag, which mainly contains bismuth, lead and copper, and a small amount of antimony and arsenic in the bismuth oxide slag. [0003] There are many studies on the methods of extr...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22B7/04C25C1/22
CPCY02P10/20
Inventor 陈万天宋国生陈知勇瞿继育
Owner JIANGXI LONGTIANYONG NONFERROUS METAL CO LTD