Patent ID: 8753421

Claim:
A method for cyclically preparing titanium sponge and coproducing potassium cryolite using potassium fluotitanate as an intermediate material, which includes the following steps: A) adding hydrofluoric acid to titaniferous iron concentrate to initiate a reaction in a first reactor at a temperature of between 100 and 200 DEG C. to form fluotitanic acid; B) adding an aqueous potassium sulphate solution to the fluotitanic acid to initiate a reaction to form a potassium fluotitanate precipitate, centrifuging, rinsing, and drying the potassium fluotitanate precipitate to obtain intermediate material potassium fluotitanate; C) putting dried potassium fluotitanate into a second reactor, injecting an inert gas to the second reactor after vacuumizing, heating the second reactor to a temperature of between 780 and 850 DEG C., dripping molten aluminium in the second reactor and stirring quickly to initiate a reaction for 4 to 6 hours to form titanium sponge and potassium cryolite; or, putting aluminium into a second reactor, injecting an inert gas to the second reactor after vacuumizing, then heating the second reactor to a temperature of between 780 and 850 DEG C., adding dried potassium fluotitanate in the second reactor and stirring quickly to initiate a reaction for 4 to 6 hours to form titanium sponge and potassium cryolite; D) extracting molten liquid potassium cryolite; after the molten liquid potassium cryolite is cooled, crushing and sending it to a rotary reaction kettle quantificationally together with concentrated sulphuric acid to initiate a reaction at a temperature of between 400 and 500 DEG C. to form hydrogen fluoride gas and a solid mixture of potassium sulphate and aluminium potassium sulphate; condensing and collecting the hydrogen fluoride gas and dissolving it into water to obtain a hydrofluoric acid aqueous solution; reacting the solid mixture of potassium sulphate and aluminium potassium sulphate with an aqueous solution of potassium hydroxide after crushing the solid mixture of potassium sulphate and aluminium potassium sulphate, and obtaining the aqueous solution of potassium sulphate after separating out solid aluminium hydroxide; and E) recycling the obtained hydrofluoric acid aqueous solution and the aqueous solution of potassium sulphate to the front end to leach the titaniferous iron concentrate, so as to cyclically prepare the intermediate material potassium fluotitanate.