Method for producing the yellow pigment of ferric oxide from ferrous sulphate of byproduct abolished by titanium white
A technology of ferrous sulfate and iron oxide yellow, which is applied in the direction of fibrous fillers, can solve the problems of serious flocculation and affect the dispersibility of the final iron oxide yellow pigment, and achieve the effects of reducing production costs, prolonging hydrolysis time, and thoroughly removing impurities
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Embodiment 1 7
[0030] The refining of embodiment 1 ferrous sulfate heptahydrate
[0031] In a volume of 10m 3 In the corrosion-resistant tank, add 7.0m 3Add 7.0 tons of titanium dioxide waste secondary ferrous sulfate (90%) to water, and now the concentration of ferrous sulfate heptahydrate solution is 700g / L, add 112kg of concentrated sulfuric acid (98%), the initial pH of the system is 1.0~1.5, add 63kg Iron sheet, keep the temperature of the system at 60°C by steaming for 8 hours and measure the pH of the system in the range of 3.0 to 4.5. Then pump into 20m 3 In the settling bucket, add water to a total volume of 16.5m 3 , ferrous sulfate heptahydrate concentration diluted to 400g / L, adding 2.2kg concentration is 20% polyacrylamide flocculant, its consumption is about 0.007% of ferrous sulfate heptahydrate weight, stirred for 10 minutes, left standstill for 6 hours, The supernatant of 15.8m can be separated 3 , which is a refined ferrous sulfate heptahydrate solution with a concentr...
Embodiment 2
[0032] Embodiment 2 seed crystal preparation (using ammonia gas)
[0033] The present embodiment adopts traditional seed bucket, and volume is 40m 3 . Air or ammonia gas enters the seed crystal barrel from the tube at the bottom of the barrel and is evenly distributed into the reaction system in the barrel through the vent hole of the air distributor.
[0034] First inject 16m into the above-mentioned seed bucket 3 Water, and then 391.4kg of ammonia gas is introduced from the bottom of the barrel, the temperature of the system is controlled at 20°C, and 16m 3 Refining ferrous sulfate heptahydrate solution (400g / L) prepared in embodiment 1, now in the barrel, the concentration of ferrous sulfate heptahydrate was 200g / L, about pH 6.0~8.0, ammonia consumption was ammonia and sulfurous acid heptahydrate 50% of the theoretical amount of iron reaction. Then feed air from the bottom of the seed bucket for about 24 hours, and the pH of the system reaches 5.0 to 7.0, and 1024.5 kg ...
Embodiment 3
[0035] Embodiment 3 seed crystal preparation (directly adopt ammoniacal liquor)
[0036] The seed crystal barrel adopted in this embodiment is the same as that in Embodiment 2 except that the ammonia water metering tank is housed on the top of the seed crystal barrel.
[0037] In the above-mentioned seed crystal bucket, add ammoniacal liquor (20%) with the ammoniacal liquor metering tank, its amount is 1957kg, and following steps and addition are all the same as embodiment 2. The needle-shaped light yellow-green iron oxide yellow crystal seeds are prepared for use in oxidation synthesis.
[0038] The method of this embodiment is particularly suitable for selection by users close to liquid ammonia production plants.
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