RU2160708C2 - Method of production of sodium aluminate - Google Patents

Abstract

FIELD: production of sodium aluminate. SUBSTANCE: aluminum-containing wastes of production of higher fatty alcohols in form of suspension of aluminum hydroxide at moisture content ranging from 30 to 80% or in form of finely dispersed powder γ-Al₂O₃ at caustic ratio equal to unit are dissolved in sodium hydroxide solution. EFFECT: low cost of product; possibility of utilizing aluminum-containing wastes of production of higher fatty alcohols. 2 cl, 1 tbl

Description

 The invention relates to inorganic chemistry, in particular, to the production of sodium aluminate, which can be used in the chemical industry, including as a coagulant and as an additive to coagulants.

Known methods for producing sodium aluminate in the form of a solution by dissolving aluminum hydroxide in a solution of sodium hydroxide with a concentration of Na ₂ O of 500-550 g / l. Aluminum hydroxide is introduced into a solution of caustic soda heated to boiling until a caustic ratio of unity is achieved, and maintained at the boiling point until complete transition to aluminum hydroxide solution / USSR Author's Certificate No. 139315, cl. C 01 F 7/04 /. The disadvantage of this method is the long process time (4-5 days).

Closest to the invention in technical essence is a method for producing a solution of sodium aluminate, comprising introducing into the solution of caustic soda with a concentration of Na ₂ O 500-550 g / l aluminum hydroxide to achieve a caustic ratio of one, and heating the mixture for 30-60 minutes to 85 - 95 ^o C / Copyright certificate of the USSR N 722845, cl. C 01 F 7/04 /.

The disadvantage of this method is the use of rapidly aging, specially prepared raw materials - aluminum hydroxide and heating the mixture for 30 to 60 minutes to 85 - 95 ^o C.

 The problem solved by the invention is to reduce the cost of the product and simplify the process.

First, the task is achieved through the use of aluminum-containing waste products of the production of higher fatty alcohols in the form of a suspension of aluminum hydroxide with a moisture content of 80 to 30% or in the form of a fine powder in the form of γ-Al ₂ O ₃ .

Wastes from the production of higher fatty alcohols in the form of a suspension are sludge with a content, wt.%: 11.5 Al (OH) ₃ , 88 H ₂ O, 0.5 organics. Aluminum hydroxide consists of aluminum trihydrite in the form of gibbsite (hydroargillite) and bayerite, alumina monohydrite in the form of boehmite. The shelf life of the suspension is unlimited.

The product of burning sludge at a temperature of 960 ^o C, the content of γ-Al ₂ O ₃ is 86%, and after firing at a temperature of 1240 ^o C γ-Al ₂ O ₃ goes into α-Al ₂ O ₃ and its content is 90%.

 Secondly, the task is achieved by the fact that the dissolution of sodium hydroxide (NaOH, GOST 4328, PSA) comes with the release of heat, i.e. the reaction is exothermic.

Thirdly, the dissolution of the production waste of higher fatty alcohols, both in the form of a suspension, and in the form of a fine powder in the form of γ-Al ₂ O ₃ in a sodium hydroxide solution occurs without heating, and comes with the release of heat as in a pre-prepared sodium hydroxide solution, and while dissolving sodium hydroxide and leaving the production of higher fatty alcohols to obtain a solution of sodium aluminate with a caustic ratio equal to one.

An example of the preparation of a solution of sodium hydroxide. A solution of sodium hydroxide with a concentration of Na ₂ O of 500-550 g / l (or with a concentration of NaOH of 645-710 g / l) corresponds to a 44.0 - 47.4% NaOH solution of sodium hydroxide with a density of 1.499 - 1.499 g / cm ^{3 /} V.I. Perelman. Quick reference chemist. "Chemistry", M., 1964. L., p. 411, table 17b. Sodium hydroxide/. To obtain a solution of sodium hydroxide with a volume of 1 liter, 740 ml of water is needed to dissolve 645 g of NaOH, and 705 ml of water is needed for 710 g of NaOH.

The dissolution of NaOH occurs with the release of heat, and with the introduction of water with a temperature of 15 - 17 ^o C after 10 - 20 minutes the temperature of the mixture rises to 90 - 92 ^o C, and after 30 - 60 minutes the temperature of the mixture drops to 79 - 81, 68 - 79 ^o C, respectively.

Examples of the preparation of a solution of sodium aluminate of approximately 1 liter (experiment number 1 to 5) and 2 liters (experiment number 6 to 7) are given in the table. When aluminum hydroxide is dissolved until a caustic ratio of one is achieved in the above 0.5 L sodium hydroxide solution, we obtain a 1 L sodium aluminate solution, and in a 1 L sodium hydroxide solution we obtain a 2 L sodium aluminate solution, i.e. the content of sodium hydroxide in a solution of sodium aluminate is reduced by about 2 times. As mentioned above, instead of aluminum hydroxide, we use the waste product of higher fatty alcohols in the form of a suspension of aluminum hydroxide with a moisture content of 80 to 30% or in the form of a fine powder in the form of γ-Al ₂ O ₃ . With the introduction of the suspension, its moisture is taken into account, and with the introduction of a dry powder, the amount of introduced water increases.

The table shows the entered amount of water and its temperature. In the process of producing sodium aluminate with the introduction of water with a temperature of 15-17 ^o C, the temperature of the mixture rises to 85 - 88 ^o C after 10 - 20 minutes, and decreases to 61 - 63, 49 - 53 ^o C after 30 - 60 minutes, respectively. With the introduction of water with a temperature of 82 - 84 ^o C, the temperature of the mixture rises to 105 - 107 ^o C after 10 - 20 minutes, and after 30 - 60 minutes it drops to 73 - 77, 57 - 58 ^o C, respectively. The dissolution process takes more than 4 hours, after 4 hours the temperature of the mixture is 25 - 27 ^o C.

In experiments No. 6 and 7, examples of the preparation of a solution of sodium aluminate using a suspension of aluminum hydroxide with a moisture content of (341x100 / 1141) = 29.9%, introduced in an amount of 1482 g, i.e. 1482-341 = 1141 g of Al (OH) ₃ or 1141/78 = 14.628 g-mol of Al (OH) ₃ or 7.314 g / mol of Al ₂ O ₃ or 7.314x102 = 746 g of Al ₂ O _{3 was} introduced.

The table shows the values of the introduced amount of Na ₂ O and γ-Al ₂ O ₃ in g and gives a characteristic of the resulting solution of sodium aluminate. Due to the fact that the volume of the obtained solution of sodium aluminate does not always exactly correspond to the volume of 1 or 2 l, a recalculation of the introduced amount of g-mol of Na ₂ O and Al ₂ O ₃ per 1 l of solution of sodium aluminate was made. Example. Test number 1: (266.6 / 62x0.950) = 4.5 and (438 / 102x0.950) = 4.5, where 62 and 102 g mol of Na ₂ O and Al ₂ O ₃ in g, respectively. Experience number 6: (499.8 / 62x2.054) = 3.9 and (746 / 102x2.054) = 3.6, etc.

 Advantages of the method: cost reduction and process simplification due to the transition to finished raw materials that do not require special cooking technology and do not lose their properties over time, through the use of cheaper raw materials and the dissolution process without fuel and energy costs; the possibility of recycling aluminum-containing waste products of higher fatty alcohols.

From these results of the table it follows that sodium aluminate solutions were obtained by dissolving the waste products of higher fatty alcohols in the form of a suspension of aluminum hydroxide with a moisture content of 80 to 30% or in the form of a fine powder in the form of γ-Al ₂ O ₃ in a solution of sodium hydroxide at a caustic ratio (Na ₂ O / Al ₂ O ₃ ) = (4-5) / (4-5), equal to one.

Claims (2)

1. The method of producing sodium aluminate, characterized in that the sodium hydroxide solution is used to dissolve the aluminum-containing waste products of the production of higher fatty alcohols in the form of a suspension of aluminum hydroxide with a moisture content of 30 - 80% or in the form of a fine powder in the form of γ-Al ₂ O ₃ with a caustic ratio equal to one. 2. The method according to claim 1, characterized in that the fine powder in the form of γ-Al ₂ O ₃ is a product of burning sludge at 960 ^o C and contains 86% γ-Al ₂ O ₃ .

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