Method used for preparing fluorine salt taking aluminium fluoride as main component from electrolyte-containing material produced in aluminium electrolysis
An electrolyte and aluminum fluoride technology, which is applied in the direction of aluminum fluoride, aluminum halide, calcium/strontium/barium oxide/hydroxide, etc., can solve the problems of redundant electrolyte-containing materials, reduce fluoride emissions, and promote high Quality development, effect of increasing profitability
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Embodiment 1
[0034] In this embodiment, the broken electrolyte extracted or scooped out from the electrolytic cell is processed, and the specific steps are as follows:
[0035] 1) Weigh the broken electrolyte extracted or scooped out from the 1000Kg electrolyzer;
[0036] 2) take by weighing 1340Kg solid aluminum chloride hexahydrate;
[0037] 3) Put 1000Kg electrolyte and 1340Kg solid aluminum chloride hexahydrate into the reactor after mixing, and add 2400Kg of water to dilute;
[0038] 4) Put the solid-liquid mixture (the fineness of the solid particles is 200 mesh and the pH value is 1.2) into the reactor, and heat the solid-liquid mixture while stirring. The stirring speed is 300r / min, and the reaction temperature is kept 90°C, reaction time 90 minutes;
[0039] 5) carry out solid-liquid separation to the reacted solid-liquid mixture by filtration;
[0040] 6) The 880Kg precipitate obtained by solid-liquid separation was vacuum filtered and washed, and the washing water consumption...
Embodiment 2
[0045] In this embodiment, the regenerated electrolyte or regenerated cryolite obtained by treating the carbon slag by flotation or other methods is processed, and the specific steps are as follows:
[0046] 1) Weigh 1000Kg carbon slag through flotation or other methods to obtain regenerated electrolyte or regenerated cryolite;
[0047] 2) take by weighing 1260Kg solid aluminum chloride hexahydrate;
[0048] 3) After mixing 1000Kg electrolyte and 1260Kg solid aluminum chloride hexahydrate, put it into the reactor, and add water and step 6 in Example 1) to dilute a total of 2000Kg of the solution after removing impurities;
[0049] 4) Put the solid-liquid mixture (the fineness of the solid particles is 120 mesh and the pH value is 0.8) into the reactor, and heat the solid-liquid mixture while stirring. The stirring speed is 300r / min, and the reaction temperature is kept 90°C, reaction time 100 minutes;
[0050] 5) carry out solid-liquid separation to the reacted solid-liquid ...
Embodiment 3
[0056] In this embodiment, the electrolytic cell is stopped and the cleaning material is processed, and the specific steps are as follows:
[0057] 1) Take by weighing 500 grams of electrolyzer stop tank cleaning material;
[0058] 2) take 540 grams of solid aluminum chloride hexahydrate;
[0059] 3) Put 500 grams of electrolyte and 540 grams of solid aluminum chloride hexahydrate into the reactor after mixing, and add 1.2 liters of water to dilute;
[0060] 4) Then put the solid-liquid mixture (the fineness of the solid particles is 150 mesh and the pH value is 1.5) into the beaker, and put the beaker into the water bath to heat, while using electromagnetic stirring, the stirring speed is 150r / min, The reaction temperature is maintained at 100°C, and the reaction time is 80 minutes;
[0061] 5) Settling the reacted solid-liquid mixture and performing solid-liquid separation;
[0062] 6) 450 grams of sediment obtained by solid-liquid separation was washed with a filter and ...
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