A kind of method for recovering magnesium fluoride polluted acid by harmless treatment in zinc smelting process

A harmless treatment, magnesium fluorine polluted acid technology, applied to the improvement of process efficiency, etc., can solve the problems of poor solution filtration performance, poor separation effect of zinc and magnesium, occupational health hazards, etc., to improve economic benefits and social benefits, reduce safety and environmental risks, and reduce production costs

Active Publication Date: 2022-07-26
YUNNAN LUOPING ZINC & ELECTRICITY
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AI Technical Summary

Problems solved by technology

[0005] The existing problems include: (1) The high magnesium ion salt has caused great difficulties in the production of zinc by hydrometallurgy; (2) The contaminated acid is directly neutralized with lime, resulting in waste of acid and fluorine resources; (3) In the treatment A large amount of sulfur dioxide gas will be released during the process, causing environmental pollution and occupational health hazards
[0008] (1) Neutralizing zinc-precipitating and magnesium-expelling method. This method uses lime to hydrolyze and precipitate zinc into the slag, and the magnesium is left in the solution to be discharged, realizing the separation of zinc and magnesium, but the large amount of gypsum slag produced will cause secondary pollution. , magnesium resources and water resources cannot be recycled;
[0009] (2) Zinc ore pickling and magnesium removal method, this method can only remove part of the magnesium, and some valuable metals will also be pickled out, which is difficult to recycle, resulting in the loss of valuable metal resources;
[0010] (3) concentrated crystallization separation magnesium method, this method zinc, magnesium separation effect is not good enough, and magnesium still stays in solution;
[0011] (4) High-efficiency extractant separation zinc and magnesium method, this method can realize the high-efficiency separation of zinc and magnesium, but the equipment is complicated and the cost input is high
This method will directly cause the loss of acid and fluorine, resulting in waste of resources. The key point is that a large amount of sulfur dioxide gas will be released during the treatment process, causing environmental pollution and occupational health hazards.
[0023] In short, in the high zinc solution using traditional fluoride to remove magnesium, the magnesium fluoride crystal particles are too fine and the viscosity is too high. In the case of magnesium fluoride crystals as seeds, although the magnesium fluoride crystal particles will increase Large, but it is also easy to form colloids in such a high-zinc solution, which makes sedimentation very difficult, and the solution has poor filtration performance, or even cannot be filtered, so it is difficult to apply to actual production
It can be seen that there is still no good and practical method to solve the comprehensive treatment of high zinc, high magnesium and dirty acid in the zinc hydrometallurgy process. In view of the above problems, it is necessary to invent a method for harmless treatment and recycling Magnesium Fluorine Polluted Acid Method

Method used

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  • A kind of method for recovering magnesium fluoride polluted acid by harmless treatment in zinc smelting process

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0077] Take (1) 20,000 grams of zinc sulfite slag produced by a company in Yunnan and dry it for later use. %, silver 0.0037 wt%, iron 1.9 wt%, fluorine 0.021 wt%, chlorine 0.19 wt%; (2) 20 liters of fouling acid, the fouling acid contains 3.9 g / L of acid, 0.81 g / L of fluorine, and 0.36 g of chlorine (3) Take 50 liters of electrolytic waste liquid, which contains 42 g / L of zinc, 40 g / L of magnesium oxide, 143 g / L of sulfuric acid, 0.03 g / L of fluorine, and 0.34 g / L of chlorine; ( 4) Take 2000 grams of zinc calcine, which contains 58.4wt% zinc and 1.8wt% magnesium oxide. (5) Take 500 grams of copper slag, the copper slag contains 5.5wt% zinc, 32.6wt% copper, and 0.022wt% chlorine.

[0078] 1) Slurrying of zinc sulfite slag: take 10 liters of industrial water and 20 liters of electrolytic waste liquid, add 10,000 grams of zinc sulfite slag for slurrying, slurry for 10 minutes, stir and slurp evenly and then stand by for use;

[0079]2) For one acid leaching, take 5 liters of p...

Embodiment 2

[0094] Take (1) 20,000 grams of zinc sulfite slag produced by a company in Yunnan and dry it for use. %, silver 0.0051wt%, iron 3.2wt%, fluorine 0.034wt%, chlorine 0.22wt%; (2) 20 liters of fouling acid, the fouling acid contains 7.4 grams per liter of acid, 4.8 grams per liter of fluorine, and 2.1 grams of chlorine (3) Take 50 liters of electrolytic waste liquid, which contains 44 g / L of zinc, 46 g / L of magnesium oxide, 157 g / L of sulfuric acid, 0.028 g / L of fluorine, and 0.34 g / L of chlorine; ( 4) Take 2000 grams of zinc calcined sand, the zinc calcined sand contains 56.3wt% zinc and 1.9wt% magnesium oxide. (5) Take 500 grams of copper slag. The copper slag contains 7.8 wt % of zinc, 35.3 wt % of copper, and 0.024 wt % of chlorine.

[0095] 1) Slurrying of zinc sulfite slag: take 5 liters of industrial water and 30 liters of electrolytic waste liquid, add 11,000 grams of zinc sulfite slag for slurrying, slurry for 10 minutes, stir and slurp evenly and then stand by for use;...

Embodiment 3

[0111] The difference between this embodiment and the above-mentioned Embodiments 1 and 2 is that, according to the amount of crystal seeds added and whether to add activated carbon, and the amount of activated carbon to be compared, a comparison table of the influence of these factors on the filtration rate is obtained, see Table 1.

[0112] Table 1 Comparison of the effect of activated carbon addition on the filtration rate of the demagnesium solution

[0113]

[0114] It can be seen from Table 1 that although the filtration speed is improved to a certain extent after adding the seed crystal, the effect is not ideal. After adding an appropriate amount of activated carbon as a modifier, the filtration effect is very good, and the filtration speed increases with the appropriate increase of the amount of activated carbon added.

[0115] In a word, it can be seen from the examples that by adding an appropriate amount of activated carbon, the problems that high zinc-containing...

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Abstract

The invention relates to a method for harmless treatment and recovery of magnesium fluoride polluted acid in a zinc smelting process, comprising: 1) harmless reuse of polluted acid; Seeds, modifiers, demagnesiasing agents, lime, etc., heat up and stir, filter to obtain demagnesium solution and magnesium fluoride concentrate, add tannic acid to the demagnesium solution to precipitate germanium, recover germanium, and filter to obtain germanium tannin Slag and germanium precipitation liquid, tannin and germanium slag are burned to obtain germanium concentrate, and the post germanium precipitation liquid is sent to leaching air for oxygen purification to remove iron and fluorine; 3) air oxidation to remove iron and fluorine after germanium precipitation; 4) iron removal After fluorine, the liquid copper slag is dechlorinated. The invention achieves the open circuit of magnesium oxide, reduces the harm of magnesium oxide in the hydrometallurgical zinc solution system, and recovers magnesium, fluorine and acid harmlessly; by adding active agent, the problem of easy formation of colloid in high zinc-containing solution is solved, and fluorine is changed. The characteristics of magnesium fluoride slag in high zinc ion solution make magnesium fluoride slag form a spongy structure, which is easy for liquid-solid separation.

Description

technical field [0001] The invention belongs to the technical field of non-ferrous metallurgy, and in particular relates to a method for harmlessly treating and recovering magnesium-fluorine polluted acid in a zinc smelting process. Background technique [0002] With the continuous barrenness of zinc mineral resources and the continuous improvement of national environmental protection awareness, it actively responds to the requirements of national environmental protection and comprehensive recycling and sustainable development of limited resources. [0003] In the production process of zinc hydrometallurgy, the raw materials used generally contain about 0.5wt% of magnesium oxide, and even some raw materials contain about 3.0wt% of magnesium oxide. Such raw materials cause great difficulties to the production of zinc hydrometallurgy. Magnesium ion is a continuous accumulation process in production, and the saturation is different under different conditions. Magnesium ion sal...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22B7/00C22B19/20C22B41/00C22B13/00C22B11/00C22B26/22C22B15/00
CPCC22B7/007C22B19/22C22B41/00C22B13/045C22B11/042C22B26/22C22B15/0071Y02P10/20
Inventor 陈长浩吴慧赵兵伍张龙窦峰龙国心秦怀坤
Owner YUNNAN LUOPING ZINC & ELECTRICITY
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