SU722845A1 - Method of preparing sodium aluminate - Google Patents

Description

one

The invention relates to the field of non-ferrous metallurgy and can be used in the production of sodium aluminate.

Known for cnocoRj of alkali metal aluminates by high-temperature sintering of aluminum hydroxide with alkali at a temperature of 1200-1400 C or sintering of nitrate salts of aluminum and sodium at a temperature of 200-400 ° C 1 and 2

These methods are technologically complex and not economical.

The closest to the invention in its technical essence is the method of producing sodium aluminate in the form of a solution by dissolving aluminum hydroxide in caustic soda solution with a concentration of 500,550 g / l. The aluminum hydroxide is introduced into a solution of caustic soda heated to boiling until a caustic ratio of one is reached and maintained at boiling point X, i.e., a complete transition to aluminum hydroxide solution (31.

The disadvantage of this method is the long process time (45 days).

2

The purpose of the invention is to accelerate the process.

This is achieved by heating the solution after adding aluminum hydroxide for 30-60 minutes to 8595 ° C.

The essence of the method is that aluminum hydroxide is introduced into sodium hydroxide solution, followed by heating the mixture for 3060 minutes to 85-95 ° C and keeping the resulting mixture.

The complete dissolution of the hydroxide in these conditions takes 5-8 hours.

five

Example 1. A solution of caustic soda with a LazO concentration of 500 g / l and a volume of 100 l at a temperature of 126 kg of aluminum hydroxide is injected. The mixture is heated to 95 ° C for 30 minutes with stirring and maintained at this temperature for 5 hours. The sodium aluminate solution obtained has an AC concentration of 460.2 g / l and

5 280.0 g / l, which corresponds to a caustic ratio equal to one.

Example 2. The method is carried out as in Example 1. The initial temperature of the caustic soda solution is 25 ° C and

the mixture is heated to a temperature of 85 ° C for 60 minutes. The resulting aluminate solution has a concentration of AEjOj of 459.6 g / l and NajO of 279.6 g / l, the caustic ratio is one.

Example 3. The method is carried out as in Example 1. A caustic soda solution concentration of 550 g / l. In a solution of caustic soda with a volume of 100 liters, 138 kg of aluminum hydroxide are introduced and kept at a temperature of 85 ° C for 8 hours. The resulting sodium aluminate solution has a concentration according to Ab2 Oj of 486.5 g / l and NajO 297.3 g / l, the caustic ratio is one.

- Example 4. The method is carried out according to Example 3. The initial temperature. caustic soda solution of 25 ° C, the mixture is heated to a temperature and dissolution is carried out for 8 hours.

Example 5. The method is carried out according to Example 1. The initial temperature of the sodium hydroxide solution, the mixture is heated to a temperature and maintained at this temperature for 8 hours. The resulting sodium aluminate solution has an AEjOj concentration of 460.0 g / L and Na. 280 g / The resulting solution of sodium alu-inate has a caustic ratio of one.

EXAMPLE 6 The method is carried out as in Example 1, only the concentration of caustic soda solution is .550 g / l. sodium aluminate solution has a concentration of

486.2 g / l and 297.0 g / l, the caustic ratio is equal to one.

Example 7 To a solution of caustic soda with a concentration of 550 g / l and a volume of 100 l at a temperature of 15 ° C, 138 kg of aluminum hydroxide are introduced. With stirring for 60 minutes, the mixture is heated to a temperature and maintained at this temperature for 8 hours. The resulting sodium aluminate solution has a concentration of 486.3 g / l and 297.0 g / l, the caustic ratio is one.

Example 8, The method is carried out according to Example 7, Initial

5 The temperature of the sodium hydroxide solution is 25 ° C. The resulting sodium aluminate solution has an AfjOj concentration of 486.5 g / l and 297.2 g / l, the caustic ratio is one.

Claims (3)

1. US patent number 2869984, CL, 23-52, published. 1955. 2. Authors. USSR Certificate No. 278655, C 01F 7/02, 1969. 3. USSR author's certificate No. 139315, cl. C 01 F 7/04, 1961 (prototype).