DE1285997B - Process for the fine purification of oxo-aldehydes - Google Patents

Description

The invention relates to a process for the fine purification of oxo-aldehydes by removal of small amounts of cobalt compounds with the help of acids.

The aldehydes obtained by catalytic addition of water to olefins (oxo reaction) have is known to have a considerable metal content from the cobalt catalyst used originates. Numerous methods are known for removing these metal compounds. So you can z. B. treat the crude oxo-aldehydes with aqueous solutions of acids or salts, or you can treat them with acidic compounds, such as fuller's earth, even in the absence of water (German interpretation 1142 592). After the known purification processes are usually up to in the pre-purified oxo-aldehydes Contains ~ 0.5 mg cobalt per liter. In many cases, however, it is necessary that the oxo-aldehydes obtained are extremely pure, as z. B. interfere with oxidative further processing even traces of cobalt because they catalytically accelerate undesired side reactions.

According to the methods known up to now, it is not possible, or only with a very high technical effort, to produce particularly pure oxo-aldehydes. It has now been found that you can do the fine cleaning of oxo-aldehydes by removing small amounts of cobalt compounds with the help of acidic Connections can be made if cation exchangers are used as acidic compounds.

The process can be made very simple by using the crude oxo-aldehyde via a Cation exchanger filled column runs; it is particularly advantageous to work in such a way that one moving the crude aldehyde together with the cation exchanger, e.g. B. by stirring or shaking; this way of working is also known as the »Barche process.

The process can of course also be carried out continuously by using several Columns or several stirred tanks connected in series.

The temperature at which the fine cleaning of the crude aldehydes is carried out is up to about 70 ° C and depends on the temperature conditions to which the cation exchanger is exposed can be.

Suitable cation exchangers are, for example, synthetic resin ion exchangers with strongly acidic active ones Groups, especially polystyrene resin exchangers with sulfonic acid groups, for example the one below Exchangers known under the trade name PERMUTIT®RS.

The volume ratio of crude aldehyde to volume of cation exchanger is generally about 100: 1.

The crude oxo-aldehydes used generally have a cobalt content of up to 1 mg / l.

In principle, aldehydes can also be used which contain larger amounts of cobalt contain. However, the process will be used in particular for the fine purification of the oxo-aldehydes.

When using the “batch” process, the residence time is generally 1 to 2 hours.

The process has the advantage that an aqueous phase no longer has to be formed. This becomes the Avoided disadvantage, which is particularly the case when separating an aqueous phase from an organic phase in the presence of cobalt compounds. It is known that cobalt compounds tend to form of emulsions and colloids, so that a perfect separation of the two phases is not complete is guaranteed, in particular as required for the present case of a fine cleaning is.

One had to assume that due to the large surface area of the cation exchanger during the residence time and the associated action of air on the oxo-aldehyde to be cleaned mainly due to the expected oxidative effect, a reduction in quality and a deterioration in yield would experience; Surprisingly, however, this is not the case.

According to the process of the present invention, extremely pure oxo-aldehydes are obtained, their Cobalt content is less than 0.001 mg cobalt per liter.

example 1

31 one obtained by the oxo process crude butyraldehyde with a cobalt content of 0.53 ppm (= 0.42 mg cobalt per liter) are on given an exchange column (diameter 22 mm) with 30 ml of a under the trade name PER-MUTIT®RS known cation exchanger is filled. The drainage rate is 200 ml / hour. The cobalt content of the expired aldehyde is only 0.050 ppm (= 0.040 mg cobalt per liter).

Example 2

11 of the butyraldehyde used in Example 1 with a cobalt content of 0.42 ppm is 2 hours shaken with 10 ml of the cation exchanger used in Example 1. The filtered aldehyde still has a cobalt content of <0.001 ppm (= <0.001 mg cobalt per liter).

A chemical change in the purified aldehyde cannot be determined.

The table shows the analytical data of the crude and the purified aldehyde.

Hydrocarbon

acetaldehyde

Isobutyraldehyde

Butyraldehyde

Butyric acid from acid number
H ₂ O (after Fischer)

Before treatment with exchanger

0.02%

0.1%

0.2% 92.9% 4.3% 2.49%

After treatment with exchanger

0.01%

0.2%

94.7% 2.7%

2.42%

Claims (1)

Claim: Process for the fine purification of oxo-aldehydes by removing small amounts Cobalt compounds with the help of acidic compounds, characterized in that cation exchangers are used as acidic compounds.