SU45922A1 - The method of regeneration of lime from sludge upon receipt of alumina from nepheline, etc. - Google Patents

Description

When sintering alumina from nepheline is obtained by sintering the mixture, pT3 is computed for calculating 2 CaCoS molecules per 1 SUCV molecule. During the sintering of such a mixture, lime and silica are bonded to each other in p 2CaO SiO ,, insoluble in the leaching of the cake. The nepheline sludge, obtained after leaching the cake, contains about 85% of air-dry state, S 2CaOSiO2, i.e., it is a technical dicalcium silicate.

The return to production of limestone spent in the process of sintering it with nepheline, in some cases, such as, for example, for the Kandalak Alumina Refinery, is undoubtedly an important circumstance since this plant comes to be brought relatively far away (from the Arkhangelsk region ) about 400,000 tons of limestone to produce 40,000 tons of alumina. With the possibility of lime regeneration from sludge, the development of limestone deposits and its transport can be reduced to a great extent.

Regeneration from nepheline sludge calcium carbonate is based on the method, as in the regeneration method according to the author's certificate No. 42066,

on the decomposition of 2CaO SiO2 with carbon dioxide in the presence of water; Calcium silicate decomposes to form two products, CaCO-j and silicic acid.

The present method of lime regeneration differs from the method specified in this Author's Certificate No. 42066 in that decomposition of nepheline sludge is carried out with carbon dioxide under pressure at ordinary or reduced temperature, and the decomposition produces a mixture of calcium carbonate and silica with impurities (flljOs, FejOs, TiOz, RZO), usually present in the sludge.

Decomposition is carried out as follows. A mixture of nepheline sludge and water in any proportion, but preferably 1: 2 or 1: 3, is loaded into the autoclave or into any other hermetically closed device and carbon dioxide or furnace gases containing carbon dioxide are pumped into it to a certain pressure. The apparatus has an agitator, with which the mixture is stirred during the entire time the sludge decomposes. After all carbon dioxide has been consumed to decompose dicalcium silicate, gases that have not entered into the reaction (when using kiln gases) are released from the device and a new amount of carbon dioxide is injected into it. The operation is repeated until the absorption of carbon dioxide by the mixture ceases, the decomposition reaction is carried out at ordinary temperature or even during cooling and is completed after 3-4 hours. The decomposed slurry is discharged from the apparatus and separated from the solution. The calcium bicaric acid solution, separated from the decomposed sludge, can be used to further precipitate CaCO3 from it by heating the solution. The solid phase, the mixture of C-a (HCO) g and SiOo is subjected to separation.

The separation of calcium bicarbonate from silica is carried out either by flotation to obtain Ca concentrate (HCO3) 2 with a content of about 3-4 / Q SiO, with a yield of about 85-90 / o from lime used in the sintering process, or separating the constituent parts of the decomposed sludge according to their beats and weight using delayed sedimentation (hydraulic separator, Wilfle table).

The application of the method of delayed deposition is based on those observations that the nepheline sludge decomposed by the above method is the initial chemical composition: SiOg - 2b, 0 ° / o, CaO - 59.0 ° / o, impurities (composition, see above) - 10, 0 ° / o and 5% loss on ignition - during the elutriation of the inlet, when settled, it is divided into three layers: the lower, most severe, containing some amount of undecomposed sludge (sand), about 3-5% of the weight of the decomposed sludge, 28- 30% SiOg and loss on ignition of 8-10%, the middle layer containing a mixture of silica and Ca (H СОЗ) 2 in the amount of about 25-30% of the weight of the decomposed sludge containing

30-35% KSP and with a loss on ignition of 25-30% and an upper milk layer containing mainly Ca (HCO3) -2 in the amount of 65-70% of the weight of the decomposed sludge, with a content of 3-4% SO and with a loss when calcining 55-60%.

Calcium bicarbonate concentrate containing up to 95% Ca (HCO3) 2, after drying, goes to a blend with nepheline. To decompose nepheline sludge, gas is used from sintering furnaces and calcining furnaces containing CO, without any pretreatment.

The subject matter of the invention.

1. A method of regenerating lime from sludges in the production of alumina from nepheline or the like, subjected to sintering with carbonic calcium compounds and subsequent leaching, which sludges are treated in the presence of water with carbonic acid or kiln gas containing carbonic acid, characterized in that the treatment with carbon dioxide acid is carried out under pressure at ordinary or lowered temperature, after which the precipitate containing calcium bicarbonate is recovered by known methods.

2. Acceptance of the method indicated in paragraph 1, characterized in that the solution, after removing it from the precipitate, is heated in order to transform calcium carbonate into solution into carbonic carbonate precipitating from solution.

3. The use of calcium compounds for sintering nepheline or the like obtained according to the methods of claims 1 and 2