DE956502C - Process for the preparation of trans-trans-muconic acid and its esters - Google Patents

Description

Process for the preparation of trans-trans-muconic acid and its esters the Previous processes for the production of muconic acid are either very cumbersome and costly, or less technically feasible.

The oxidation of benzene in the animal organ: mus, which is also used for Muconic acid has only scientific significance. The oxidation of phenol or catechol with peracetic acid comes because of the difficult handling of the Implementation only on the smallest scale in question and also leads only in low yield to muconic acid, namely to cis-cis-muconic acid (J. B o e s e k e n and C. H. M e t z, Recueil des travaux chimiques des Pays-Bas, vol. 54, 1935, p. 345-; A. Wacek and R. F i e d ler, monthly books for chemistry, vol. 80, 1949, p. 170). That of P. C. Guha and D. K. Sankaran in Organic Syntheses, Vol. 26, 1946, p. 57 The process is also cumbersome because of the raw materials required (thionyl chloride, Bromine) is expensive and only gives muconic acid yields of at most 40%. That The end product is also very heavily contaminated and must be followed by an ester Saponification can be cleaned. Also the procedure of the British patent specification 477 774, which starts from ethyl oxalate and ethyl crotonate, is cumbersome, lengthy and costly.

The production of trans-trans-muconic acid from adipic acid is so far also only succeeded in a 29% yield (cf. Journ. of the Chemical Society {London], Vol. 1950, pp. 2228-2235) by saponification of dibromoadipic acid.

It has now been found that the route via the chlorination of adipic acid esters high yields of trans-trans-muconic acid or muconic acid esters in a simple manner results when the chlorination in the presence of certain amounts of a boron trifluoride complex compound performs or at the same time a corresponding amount of boron fluoride in gaseous form with the Introduces chlorine into the reaction mixture.

Although it has already been described, boron trifluoride or its To use complex compounds for catalytic halogenation (cf.

H. S. Booth and D. R. Martin, Boron Trifluoride and its Derivatives, 1949, p. 198, section "Halogenation"). In contrast, it was clearly a director Effect of such an addition of boron trifluoride or its complex compounds so far not observed on the incoming chlorine atoms. However, this is the case with the Chlorination of adipic acid esters in the presence of boron trifluoride or one of its Compound compounds are the case, since predominantly a, a'-substituted chlorine compounds are formed and thus also high yields of trans-trans muconic acid and mucon acid esters are obtained.

Suitable boron trifluoride complex compounds are boron trifluoride-diacetic acid, Boron trifluoride etherate. The catalyst is used in amounts of from 0.5 to 100 per cent, mainly from I ° ío, added. So a way has been found that allows it to be technically simply from readily available materials and in high yields of trans-trans-muconic acid and muconic acid esters.

Compared to the already proposed bromination of adipic acid chlorination is much cheaper, since chlorine is cheaper than bromine and twice such high yields of trans-trans-muconic acid are formed.

The use of adipic acid esters as a starting material is advantageous, since the alcohol is recovered in the saponification and re-esterification of adipic acid is available while in the proposed chlorination of adipic acid with thionyl chloride this is lost.

If you want to produce the trans-trans-muconic acid ester, then you go of course from the corresponding adipic acid ester.

You have it in your hand, either the transtrans-muconic acid or the -Muconic acid esters. If you let the elimination of hydrogen chloride with the help of excess alkali hydroxide at the boiling point, it is found next to the elimination of hydrogen chloride at the same time a saponification of the ester takes place, and one receives free trans-trans-muconic acid after acidification of the reaction mixture. He follows however, the elimination of hydrogen chloride at low temperature, e.g. B. at 200, with With the help of alcoholic alkali hydroxide solution, the corresponding trans-trans-muconic acid ester is formed.

With the catalytic splitting off of hydrogen chloride in the presence one of the known catalysts, the ester is also obtained, which is advantageous works in the presence of a solvent such as toluene or xylene.

The general procedure is as follows: The adipic ester is mixed with the catalyst and chlorinated in a suitable device. As a result of the strongly exothermic reaction, the temperature rises rapidly, with under Under certain circumstances, excessive heating is prevented by cooling. The inclusion of the Chlorine is monitored by weight by measuring the index of refraction or density. The work-up of the chlorinated adipic acid ester by distillation is not required, rather even uneconomical, because of the still dissolved chlorine During the distillation, decomposition and gumming occur. Suffice it to say in the raw Chlorination product about still dissolved amounts of chlorine or hydrogen chloride in a vacuum or by introducing an inert gas. For obtaining trans-trans muconic acid the chlorination product is left with stirring in an alcoholic alkali metal hydroxide solution, z. B. in a mixture of I part 50 so °, oiger sodium hydroxide solution and IO parts of methanol, run at the boiling point.

The amount of sodium hydroxide solution is chosen so that in addition to the elimination of hydrogen chloride at the same time saponification of the ester occurs. The precipitating precipitation exists from sodium muconate and sodium chloride. It is dissolved in water and the free trans-trans-muconic acid precipitated by acidification.

If you want to win the trans-trans-muconic acid ester, this takes place Elimination of hydrogen chloride with alcoholic sodium hydroxide solution at 20 ° in the same Way. A mixture of transtrans muconic acid ester and sodium chloride is precipitated here the end.

This is removed by washing with water.

Special cleaning by recrystallization is not necessary in in both cases, since the acid and the ester are already very pure.

Example I 300 parts of dimethyl adipate are mixed with 3 parts Boron trifluoride-diacetic acid added and treated with chlorine for so long (about 2 hours), until the weight gain is I25 parts. The chlorine adipic acid ester then becomes freed from dissolved chlorine and hydrogen chloride in vacuo, with 420 parts of chlorination product lag behind. A mixture of 530 parts of 50% sodium hydroxide solution and 5000 parts Methanol is heated to the boil and the chlorination product is added dropwise with stirring, a precipitate of sodium muconate and sodium chloride separating out. To After cooling the mixture, the precipitate is filtered off and dissolved in water. Roughly unresolved minor Quantities of trans-trans-muconic acid dimethyl ester are filtered off, and the solution is acidified with sulfuric acid. It fall 190 parts of pure white trans-trans-muconic acid from corresponding to 78 weeks of theory; F. = 296 °. By working up the after the elimination of hydrogen chloride and saponification a small amount of trans-trans-muconic acid, about 2% the total today, can be won.

Example 2 306 parts of dimethyl adipate are used in the same Chlorinated way as in Example I. The chlorination is interrupted when the original The refractive index has increased from I, 4320 to I, 48I0. The substance from the dissolved chlorine and chlorinated water Freed dimethyl chloradipate is dissolved in 700 parts of methanol, the 140 parts Contains sodium hydroxide solution, allowed to run in at 200 with stirring.

The trans-trans-muconic acid dimethyl ester separates here with sodium chloride.

This is dissolved out with water. There are 178 parts of trans-trans-muconic acid dimethyl ester obtained in 84% yield from mp = 156 °. The one after the elimination of hydrogen chloride Accumulated alcohol is worked up, with about 2 Wo of the total yield remaining trans-trans-muconic acid esters are obtained.

Example 3 100 parts of the methyl chloadipate prepared according to Example 1 are dissolved in 250 parts of xylene and at 6500 over a catalyst that consists of more active Silica is made, passed.

55 parts of dimethyl trans-trans-muconate fall from the cooled reaction product which are obtained by filtration. By concentrating the filtrate are still another 2.5 parts of trans-trans-muconic acid dimethyl ester obtained. Overall yield 71 Where the theory.

Claims (2)

PATENT CLAIMS-. I. Process for the preparation of trans-trans-muconic acid and its Esters by halogenation of adipic acid esters and elimination of hydrogen halide from the halogenated adipic esters, characterized in that the adipic esters in the presence of boron trifluoride or its complex compounds to the corresponding a, a'-dichloroadipic acid esters and chlorinated from these in a manner known per se Splitting off hydrogen chloride. 2. The method according to claim 1, characterized in that the Elimination of hydrogen halide with an alkali hydroxide solution, which leads to the reduction the solubility of the muconic acid formed is an excess of low molecular weight Contains alcohol at the boiling point of this mixture or with an alcoholic Alkali hydroxide solution at a temperature not exceeding about 30 ° or in The presence of a hydrogen halide-releasing catalyst in the vapor state Performs temperatures between 500 and 700 °. Publications considered: P. Karrer, Textbook of Organic Chemistry, 2nd edition, 1950,: p. 233; H. S. Booth and D. R. Martin, Boron Trifluoride and its Derivatives, 1949, pp. 198; U.S. Patent No. 2,534,212; German patents No. 814 740, 870 096; U 11 m a n n, Encyclopedia of the Teehn. Chemie, Vol. 4, 1953, P. 602, last paragraph.