DE924386C - Process for the preparation of ª ‡, ª ‡ '-Dicyan-ª ‰ -alkylglutaric acids - Google Patents

Description

Process for the preparation of α, α'-dicyano-β-alkylglutaric acids It it is known to react aliphatic aldehydes with cyanoacetic acid in the presence of bases.

This results when a molar ratio of I: I is used ß-substituted a-cyanoacrylic acids, which are relatively stable compounds are described. According to the information in patent specification 156 560, higher molecular weight aliphatic Aldeliyde also react with 2 moles of cyanoacetic acid, whereby the reaction due to a small amount of ammonia which is insufficient to neutralize the carboxylic acid, primary or secondary amines. So there is the production of α, α'-dicyano-ß-isobutylglutaric acid and α, α'-dicyano-ß-hexylglutaric acid described by adding 2 moles of cyanoacetic acid with 1 mole of isovaleraldehyde or oenanthol in the presence of catalytic amounts of piperidline Heated on a water bath for 15 or 20 hours. Yields are not given.

If this information is transferred to the conversion of 2 moles of cyanoacetic acid with aliphatic aldehydes with 2 to 4 carbon atoms, the corresponding ones are obtained α, α'-Dicyan-ß-alkylglutaric acids only in low yield. It appears, that these dicyanglutaric acids are much less stable than the α-cyanoacrylic acids are and that, in addition to other side reactions, a partial elimination of the Carboxyl groups takes place as CO2. If you work to avoid these side reactions, under moderate conditions, the reaction of the aldehydes with 2 moles of cyanoacetic acid occurs only to a small extent.

It has now been found that the reaction of 2 moles of cyanoacetic acid with I mole of an aliphatic Aldehydes with 2 to 4 carbon atoms runs uniformly and without side reactions if you use the two compounds in wäß.rig-aikalischer solution, advantageous at a pH of 10 to 11.5 for action brings. The corresponding α, α'-dicyanß-alkylglutaric acids are produced in yields of 90% and more.

You can start from free cyanoacetic acid or its salts. A particular advantage of the process is that aqueous solutions of cyanoacetic acid salts, as they are in the implementation of chloroacetic acid salts with Accumulate alkyl cyanides, can be used.

The adjustment of the required pH value of the reaction solution The easiest and cheapest way to do this is to use caustic soda, potassium hydroxide and the like, however, organic bases are also suitable. The reaction proceeds below those indicated Conditions so quickly that the use of elevated temperatures is superfluous.

In general, temperatures between 0 and 300 are used.

The reaction is carried out, for example, so that a solution of cyanoacetic acid or its sodium salt in water to the desired pH and then let the aldehyde run in with thorough mixing. If the heat builds up too much is cooled. To obtain the free a, α'-dicyano-ß-alkylglutaric acids can the reaction solution is acidified and extracted with a suitable solvent.

The α, α'-dicyano-ß-alkylglutaric acids serve as intermediates, among other things for the production of ß-alkylglutaric acids and ß-alkylglutaric acid dinitriles.

Example I A solution of 520 g of 98% cyanoacetic acid (6.0 mol) in 2560 g of 10% sodium hydroxide solution (6.4 mol) is cooled to 5 ° and within ½ hour 136 g of 97% strength acetaldehyde (3.0 mol) are added while stirring. The temperature is thereby held at 5 to 80 by cooling. The solution then remains for about 5 hours stand at room temperature After adding 628 g of 50% sulfuric acid (3.2 mol) and saturation with table salt, the solution is extracted with ether. The one after evaporation the syrupy residue of a, α'-dicyano-ß-methylglutaric acid remaining in the ether solution solidifies when it is heated to 50 ° in vacuo for 1 hour. The yield is 556 g, corresponding to 94.5% of theory. The α, α'-dicyano-β-methylglutaric acid obtained decomposes when heated rapidly in the melting point tube at about 140 ° and has an equivalent weight determined by titration of 99 (calculated 98). By saponification with dilute hydrochloric acid or sulfuric acid it gives ß-methylglutaric acid in over 90% yield.

When the above prepared alkaline reaction solution with 1 liter more concentrated Sulfuric acid is added and the mixture is heated to the boil for several hours by extraction with ether 430 g ß-methylglutaric acid, corresponding to 98% of theory, to win.

Example 2 1.2 l of a chloroacetic acid obtained by reacting molar amounts Sodium and sodium cyanide in an aqueous medium, neutralized solution, which contains 3 moles of sodium cyanoacetate, after adding 80 g of 10% sodium hydroxide solution (0.2 mol) at 5 to 100 within 20 minutes with 66 g of acetaldehyde (1.5 mol). After standing overnight at room temperature, the solution becomes more concentrated at 95 cc Acidified sulfuric acid and, as indicated in Example 1, extracted. You get a, α'-Dicyan-ß-methylglutaric acid of the same constants as in the example I in a yield of about 90% of theory.

Example 3 139 g of 98% strength cyanoacetic acid (1.6 mol) are in 680 g 10% sodium hydroxide solution (1.7 mol) dissolved. Add to the solution at 5 to 70 with stirring 46.4 g of propionaldehyde (0.8 mol) added in 30 minutes. After the reaction mixture Has stood overnight at room temperature, 177 g of 50% sulfuric acid are added (o, g mol) added and extracted with ether. By evaporation of the ethereal solution and One hour evacuation of the residue at 500 gives a, a'-Dicyanß-ethylglutaric acid- as a non-crystallizing syrup in a yield of 93.7% of theory.

The saponification of the syrup with 20% hydrochloric acid results in over 95% Yield to ß-ethylglutaric acid with a melting point of 740 Example 4 In the example 3 arises from butyraldehyde and cyanoacetic acid in one yield of 94.6% of theory α, α'-dicyanß-propylglutaric acid, which is 95% Yield to ß-propylglutaric acid (melting point 52 °) can be saponified.

Claims (1)

PATENT CLAIM: Process for the production of α, α'-Dicyanß-alkylglutaric acids by reacting aliphatic aldehydes with cyanoacetic acid, characterized in that that aldehydes containing 2 to 4 carbon atoms with cyanoacetic acid in the molar ratio 1: 2 can be reacted in an aqueous alkaline solution.