DE1064054B - Process for the production of sorbic acid by reacting ketene with crotonaldehyde - Google Patents

Description

Process for the production of sorbic acid by reacting ketene with crotonaldehyde addition to patent application F 20465 IV b / 12 o (Auslegeschrift 1 042 573) Various processes are known for the production of sorbic acid, like the condensation of crotonaldehyde with malonic acid, the conversion of crotonaldehyde with the zinc derivative of ethyl bromoacetate according to Reform a t z k y, the oxidation of hexadienal with silver compounds, the oxidation of 3,5-heptadien-2-one with Sodium hypochlorite and the splitting off of alkanols from 3, 5-dialkoxycaproic acid esters with subsequent saponification of the resulting sorbic acid esters. These procedures give out partly from difficult to access raw materials, partly the yields unsatisfactory.

There is also known a process for the production of sorbic acid, in which one ketene on crotonaldehyde in the presence of an inert solvent and an acidic, preferably a boron trifluoride, catalyst and a lactone which is obtained by treatment with a strong acid or in considerably worse Yield can be converted into sorbic acid with alkalis.

The subject of the main patent application F 20465 IVb / 12 o is a process for the production of sorbic acid by reacting ketene with crotonaldehyde in the presence an inert solvent and a compound of a metal of the N, plane groups of the periodic table as a catalyst and treating the resulting polymer Strong acid or alkaline product, characterized in that one Ketene with crotonaldehyde at a temperature of at least about 250 C in the presence a small amount of at least one fatty acid salt having at least 4 carbon atoms in the fatty acid residue and at least one divalent metal of the II. to VIII. subgroups of the periodic table and an inert solvent or solvent mixture converts, the resulting polymer, still catalyst-containing product (polyester) is alkaline saponified and the resulting alkaline solution with at least one strong acid heated to an elevated temperature.

In the patent applications F 20466 and F 20919 IVb / 12 o further Process described, which are characterized in that one in the first Stage resulting product (polyester) still containing catalyst by direct Heating to temperatures of preferably 190 to 210 ° C or in the presence of a inert solution or boiling under normal pressure above 1500 ° C., preferably above 1800 ° C. Diluent heated to temperatures of 150 to 3000 C, which is advantageous 1 to 15% of an alkali metal hydroxide or alkaline alkali metal salts are added. Solvents or diluents that are suitable are those which are useful with sorbic acid. moderate Form azeotropic mixtures, so that the sorbic acid formed together with the Solvent or diluent distilled off azeotropically and thereby purified at the same time can be.

It has now been found that sorbic acid can also be used directly i.e. without the use of an azeotropic boiling solvent or diluent, can distill and purify, if one in the absence of oxygen, z. Am Form of air, and in the presence of inert gases such as nitrogen or carbon dioxide, is working. This finding is quite surprising, since according to the information so far in literature sorbic acid cannot be distilled without decomposition, at temperatures above about 900 C, especially above its melting point, unstable and not self-oxidizing is.

This surprising finding forms the basis of the new manufacturing process, that consists in that in the first stage by reaction of crotonaldehyde and ketene obtained, still catalyst-containing product (polyester) to the exclusion of oxygen and in the presence of at least one inert gas, such as nitrogen or Carbon dioxide, immediately at temperatures from 125 to 2700 C, preferably from 140 to 2500 C, and advantageously distilled in vacuo. The distillation can, however can also be carried out under normal pressure or overpressure.

The presence also affects this procedure less Quantities, generally 0.1 to 100 / o, preferably 0.4 to 5e / o, of alkali metal hydroxides or alkaline alkali salts, calculated as alkali hydroxide and based on on the amount of polyester, particularly advantageous. Such salts are for example Sodium and potassium carbonate, bicarmonate, -isobutyrate, -caproate, -caprylate, palmitate, -stearate. terephthalate or sorbate.

The nuts are analytically pure and more suitable as a preservative Sorbic acid is about 850in on average. With the new procedure, the generally no solvents are used. In individual cases, however, it can be two-fold be, small amounts, for example 2 to 1501o, based on the amount of polyester, such Solvents that boil higher than sorbic acid. at the beginning or in the course of the distillation to add. in order to counteract a solidification of the undistilled residue Avoid end of reaction. However, the aforementioned catalysts can also be used in the form of suspensions or solutions in solvents which are inert for the implementation Add in as concentrated a form as possible. These also small amounts of solvent are then either obtained at the beginning of the distillation in the forerun or serve if they are more volatile than sorbic acid. as a residue condenser. the The fact that in the process of the invention no or only small amounts of solvent used means a significant amount for economic and other reasons Advantage. For example, a significant energy saving is achieved in this way. Opposite to thermal decomposition in the absence of solvents and diluents without strict exclusion of oxygen, the process has the advantage that the yields are much better and the production and purification of sorbic acid at the same time and can be carried out continuously. Also against one of the known proceedings and the process described in the main patent application is the production of sorbic acid by direct distillation of the still catalyst-containing product formed in the first stage Polyester in place of the alkaline saponification and acid treatment special economical Advantages, as above all work and time are saved.

Example 1 200 g of a product obtained by reacting ketene with crotonaldehyde polyester still containing catalyst produced according to the main patent application after adding 1 g of powdered sodium hydroxide in a still, which is provided with a column heated to about 1300 C, with the introduction of Nitrogen or carbon dioxide heated to 160 to 1700 C and in vacuo from 8 to 10 mm of mercury distilled. The one distilling between 130 and 1400 C. Sorbic acid has a melting point of 1340 C. The yield is carries 173 g, accordingly 86.5% If 0.4 g of sodium hydroxide is added instead of 1 g, this is Yield 168 g, corresponding to 84o.

Example 2 400 g of polyester become more commercially available after 2 g have been added Soft soap (potash soap) with the introduction of carbon dioxide at 180 to 19O "C and Distilled 12 to 15 mm Ouecksilhersäule. The amount of those passing over at 135 to 1450 C. Sorbic acid is 352 g, corresponding to 88%.

The further experiments with additions of 1 g of potassium carbonate, 1.5 g Sodium sorbate. 2 g sodium capronate or 2 g commercial curd soap (soda soap) instead of 2 g of the above-mentioned soft soap resulted under otherwise identical test conditions Sorbic acid yields of 83 to 89%, while the yields without addition of about 150 / o and with the addition of 3 g calcium hydroxide were 100 / o lower.

PATENT CLAIM: Process for the production of sorbic acid by Reaction of ketene with crotonaldehyde in the presence of an inert solvent or solvent mixture and a small amount of a fatty acid salt with at least 4 carbon atoms in the fatty acid residue and at least one divalent Metal of subgroups II to VIII of the periodic system at one temperature of at least about 250 C according to patent application F 20465 IVb / 12 o and immediately Heating of the polymer formed in the first stage, which still contains catalyst Reaction product (polyester) to temperatures of preferably 190 to 2100 C. according to patent application F 20466 IVb / l2 o, characterized in that the in the polymers obtained in the first stage. product still containing catalyst (polyester) Place of immediate heating to preferably 190 to 2100 C to the exclusion of oxygen in the presence of at least one inert gas at temperatures of 125 to 2700 C, preferably from 140 to 250 ° C, optionally in the presence of 2 to 15 0 / o of a diluent or solvent, advantageously in the presence of 0.1 to 10%, preferably from 0.4 to 50%, of an alkali hydroxide or basic reactive; en alkali salt, calculated as alkali hydroxide and based on the amount of the polyester used, distilled.

Claims (1)

References considered: U.S. Patents No. 2,484,067, 2,531,512; Industrial & Engineering Chemistry, Vol. 41, 1949, p. 768; Kirk-Othmer, Encyclopedia of Chemical Technology, Vol. 6, 1951, p. 273.