DE2244662C3 - Process for the production of dimethyl terephthalate - Google Patents

Description

The invention relates to a method of extraction From dimethyl terephthalate, through utilization of high-boiling tar-like residues, which at the known process for the preparation of dimethyl terephthalate by joint oxidation of p-xylene and p-toluic acid ester, subsequent esterification of the acids formed and separation of dimethyl terephthalate arise.

In the large-scale production of dimethyl terephthalate; r according to the processes mentioned, significant amounts of such high-boiling points become Receive by-products that build up as residues. A process by which too these by-products with little effort and satisfactory yield in the as raw material for Synthetic fibers and foils require diethyl terephthalate are transferred, is therefore of great technical importance. These high-boiling ones By-products consist of a complex mixture of acids, esters and alcohols and aldehydes ..

From DT-I ¹ S 11 42 858 it is known that by post-esterification of such a high-boiling mixture with methanol for the purpose of isolating diphenylcarboxylic acid metryl esters at 250 ° C. in an autoclave and subsequent distillation under vacuum, varying amounts of dimethyl terephthalate and dimethyl isophthalate can be obtained However, if it is used to obtain dimethyl terephthalate, it has some disadvantages.Once, the bulges on dimethyl terephthalate are heavily dependent on the distillation conditions to which the high-boiling tar-like by-products are subjected after the methanol treatment

Are z. B. treated such low volatility by-products at 250 ° C with methanol and then distilled in vacuo, so find during the distillation Reactions take place through the terephthalic acid

55 dimethyl ester is partially converted back into undesirable low volatility substances. Another disadvantage is that this creates by-products which, if they are returned to the oxidation, strongly inhibit the oxidation of p-xy'lol and / or p-toluic acid methyl ester. However, this is not a matter of the well-known inhibiting effect of toluene alcohol, because toluene alcohol cannot be detected by gas chromatography. The unknown inhibiting impurities mentioned also arise if the high-boiling mixture subjected to the methanol treatment does not contain p-toluyl p-toluate. They accumulate in the mother liquor from recrystallization of dimethyl terephthalate. The return of the evaporation residue of this mother liquor to an oxidation stage of the dimethyl terephthalate production for improved utilization therefore results in a reduced rate of oxidation. The residue from the foundampus must therefore either be discarded, although it still contains significant amounts of dimethyl terephthalate and methyl p-toluate for the economic viability of the process, or it has to be elaborately cleaned before being recycled, or previously reduced rates of oxidation had to be accepted.

One object of the invention is therefore to achieve higher yields of dimethyl terephthalate from the high-boiling tar-like residues mentioned. Another object of the invention consists in achieving higher yields of dimethyl terephthalate from the aforementioned high-boiling tar-like residues due to a method that enables the cleaning of the dimethyl terephthalate obtained by recrystallization and evaporation of the mother liquors Evaporation residues for improved utilization in an oxidation stage of dimethyl terephthalate production returned without inhibition.

The operation according to claim 1 of the invention overcomes these disadvantages.

The aftertreatment according to the invention with methanol can be carried out with such low-volatility by-products the production of dimethyl terephthalate, which already has a special re-evaporation were subjected to no gas chromatographically detectable amounts of p-toluyl-p-toluate and the acid number of which is below 30 mg KOH / g, but it is also advantageous with those with low volatility By-products produced without the use of special re-evaporators at a usual Vacuum distillation of crude dimethyl terephthalate was obtained in a column.

The post-treatment according to the invention with methanol does not require a catalyst, but it can be also carry out in the presence of the known esterification and uniesterification catalysts. With advantage it is carried out continuously in columns or tanks under increased pressure. The dwell time of the non-volatile by-products to be converted in the reactor must be adapted to the pressures used in order to obtain sufficient sales. It is useful at pressures between 10 and 50 atmospheres a few hours, especially 0.3 - 6 hours. The amount of methanol used can, based on the Amount of volatile tarry by-products, vary widely.

The separation following the inventive Methanol treatment is expediently carried out by decomposition by distillation under reduced pressure into a predominantly a fraction containing dimethyl terephthalate and a residue fraction. From the The majority of the fraction containing dimethyl terephthalate is expediently in separated in a known manner by crystallization from methanol, the methanol-soluble fractions are advantageously in a known manner by evaporating the Mother liquor obtained and returned to an oxidation stage of the process.

The advantages achieved by the invention are in particular that the yields of the hitherto known process for the preparation of dimethyl terephthalate are noticeably improved and at the same time the amounts of useless tarry by-products, which are usually burned, are reduced to about 60 to 75% of the previous values.

example 1

Hardly volatile tarry by-products from the production of dimethyl terephthalate joint oxidation of p-xylene and p-toluic acid methyl ester, which had largely been distilled out in Nachverdampf'em under vacuum, removed according to the gas chromatographic analysis, 5.0 percent by weight of dimethyl terephthalate. less than 0.5 weight percent methyl p-toluate and less than 0.5 weight percent p-toluyl ptoluate. The acid number was 16.0 mg KOH / g.

Through 100 g of these low-volatility tar-like by-products were in an autoclave with attached control valve within 4 hours continuously at 290 ° C and 28 atmospheric pressure 465 g of methanol pumped. Gaseous methanol was continuously drawn off through the control valve which opened at 28 atmospheres and condensed in a cooler after expansion to atmospheric pressure. At the end of the four hour In an experiment, the autoclave was let down to atmospheric pressure at 290 "C. with the aid of the control valve; the methanol evaporating in the process was also condensed. A total of 580 ml Get condensate. The contents of the autoclave were cooled down after the pressure was released and discontinuously removed distilled in a glass flask without a column. At 50 Torr and slowly increased from 170 ° C to 280 ° C Temperature, 40.8 g of distillate and 62.2 g of distillation residue were obtained. The acid number of the residue was 4.0 mg KOH / g, its dimethyl terephthalate content determined by gas chromatography was 4.6 percent by weight.

The 40.8 g of distillate contained according to gas chromatography Analysis 25.0 g of dimethyl terephthalate. 3.5 g p-toluic acid methyl ester and 0.9 g terephthaldehyde acid methyl ester.

Crystallization from methanol vvuiden from the Distillate 20.0 g of dimethyl terephthalate separated off, the mother liquor of the crystallization was evaporated, finally at 100 "t and 200 Torr. 23 g of evaporation residue were ι: -hold with a Acid number of less than 1 mg KO: l / g

8.0 g of this evaporation residue were with 106 g p-xylene, 300 g of p-toluic acid methyl ester and 70 mg Cobalt (as cobalt (II) ethylhexane; H m an oxidation experiment used. For this purpose, these were Misrhune at 140 ° C and 760 Torr. hv for hours introduced per minute 0.8 liters of air. The induction period until oxygen is taken up by the mixture and the acid number of the mixture after 6 hours served as a measure of the oxidizability in the present case In the example, the induction period was less than 5 minutes and the acid number after 6 hours was 43.4 mg KOH / g.

Comparative example 1

An oxidation test as in Example 1 was carried out, but with the difference that the mixture of 10 6 g of p-xylene, 300 g of methyl p-toluate and 70 mg cobalt no evaporation residue was added. The induction period was again less than 5 minutes, but the acid number was 37.0 mg KOH / g after 6 hours.

Comparative example 2

The procedure of Example 1 was repeated with 100 g of the same, low-volatility, tar-like by-products characterized in Example 1, with the only difference that the methannine treatment was not carried out at 290.degree. C. but at 250.degree. Now only 28.1 g of distillate were obtained, which, according to the result of the gas chromatographic analysis, contained 14.8 g of dimethyl terephthalate, 2.5 g of methyl p-toluate and 0.5 g of methyl terephthalaldehyde. Gas chromatography found 4.2 percent by weight of dimethyl terephthalate in the 73.0 g of the distillation residue obtained.
An oxidation experiment with the addition of 8 g of evaporation residue analogous to Example 1 gave an induction period of more than 6 hours. The acid number of the product after gassing with air for six hours was below 2.0 mg KOH / g. Gas chromatographic analysis of the evaporation residue showed, in addition to dimethyl terephthalate, methyl toluate and methyl terephthaldehyde, some unidentified compounds, but no toluyl alcohol.

Comparative example 3

The procedure of Comparative Example 2 was repeated, with the only difference that the Distillation after completion of the methanol treatment not discontinuously from a flask, but at 50 Torr and 205 ° C was carried out continuously in a thin film evaporation apparatus. 38.4 g of distillate were now obtained, in which gas chromatography 19.8 g of dimethyl terephthalate, 2.9 g of methyl p-toluate and 0.3 g of methyl terephthalic acid were found. 633.8 g of the distillation residue contained 3.6 percent by weight Dimethyl terephthalate.

An oxidation experiment with the addition of 8 g of evaporation residue analogous to Example 1 gave an induction period of more than 6 hours. The acid number was measured at 2.0 mg KOH / g.

Example 2

The low-volatility tar-like by-products characterized in Example 1 became before the methanol treatment by extraction with water

ίϊ9 ^ο C removes the cobalt to less than 10 ppm. τ Upon drying in vacuo at 90 "C 100 g of the cobalt-poor byproduct .; treated as detailed in example 1 with methanol and worked up. There were obtained 39.8 g of distillate, the 24.3 g of dimethyl terephthalate, 3.7 g p Toluic acid methyl ester and 1.1 terephthalaldehyde ester. 61.7 g of distillation residue with an acid number of 4.5 mg KOH / g contained 4.9 percent by weight of terephthalic acid dimethyl ester.

Recrystallization of the distillate from methanol gave 18.8 g of dimethyl terephthalate and 22.2 g Evaporation residue. An oxidation experiment analogous to Example 1 with the addition of 8.0 g evaporation residue resulted an induction period of less than 5 minutes and an acid number of 42.0 mg KOH / g after six hours.

Example 3

100 g of low-volatility tarry by-products from the manufacture of dimethyl terephthalate using cobalt and manganese compounds as the oxidation catalyst contained 5.4 percent by weight Dimethyl terephthalate, less than 0.5 percent by weight in each case of n-toluyl methyl ester and p-Toiuyl-p-toluate, they had an acid number! of 19.4 mg KOH / g.

When using the same quantities and carrying out the same procedure As in Example 1, 42.3 g of distillate were obtained, the 26.3 g of dimethyl terephthalate, 3.8 g Toluic acid methyl ester and 1.2 g terephthalic acid methyl ester contained. After recrystallization from methanol and evaporation of the mother liquor 24.1 g of evaporation residue were obtained.

An oxidation experiment analogous to Example 1 gave an induction period of less than 5 minutes and after 6 hours an acid number of 44.4 mg KOH / g.

Claims (2)

Patent claims: 1. Process for the production of dimethyl terephthalate from the common air oxidation of p-xylene and p-toluic acid methyl ester in the liquid phase, esterification of the acids formed with methanol and separation of the obtained methyl esters accumulating low-volatility tar-like residues and treatment dicwf · ο Residues with methanol in the heat, characterized in that this methanol treatment is carried out at 270 to 350 ° C and dimethyl terephthalate is then carried out in an known way by distillation in vacuo ι s is separated. 2 The method according to claim 1, characterized in that that the dimethyl terephthalate separated by distillation in vacuo through a recrystallization is worked up in a known manner, the resulting mother liquors be evaporated in a known manner and the Finda'Tipfungsrückstand in an oxidation stage of dimethyl terephthalate production is returned.