DEP0044355DA - solutions - Google Patents

Description

In the patent application P 6501 IVd / 12s (in the patent ...) solutions of salts of alkylated naphthalenesulfonic acids which contain aliphatic hydroxyl compounds are (are) claimed (protected). In this way, homogeneous, supersaturated solutions of salts of the sulphonic acids mentioned can be prepared in the cold.

It has now been shown that the hot concentrated solutions of the salts of alkylated benzenesulfonic acids used as detergents, cleaning agents and wetting agents also show deposits of sediments on cooling and that this separation is largely prevented by using the method of patent application P 6501 IVd / 12s can, if one adds water-soluble aliphatic hydroxyl compounds to the solutions.

It is advisable to choose those aliphatic hydroxyl compounds which have a sufficiently high boiling point so that they do not evaporate when added to the hot solution of the salts.

Particularly suitable compounds are glycol, diglycol, polyglycols and the corresponding monoalkyl ethers, and also butanol and ethylbutanol. Low-boiling alcohols, such as methanol, ethanol and propanol, can also be used if they are added with stirring to the concentrated solutions which are more or less cooled to avoid evaporation losses and which may already show precipitations from sediments. The amounts to be used can easily be determined on a case-by-case basis. In general, at least 2 1/2% of aliphatic hydroxyl compound is required, based on the solution to be stabilized.

example 1

The 30% solution of the sodium salt of an alkylarylsulfone acid, produced for example by reacting benzene with a mixture of decyl-bis-tetradecyl chloride in the presence of aluminum chloride and subsequent sulfonation, precipitates when the temperature drops below 55 ° an increasing amount of sediment. If 10 parts by weight of the diglycol ethyl ether are added to 100 parts by weight of the hot solution mentioned, a slight cloudiness occurs only on cooling to temperatures below 8 °. If 5 parts by weight of the ether mentioned are added to 100 parts by weight of a 20% strength solution of the sodium salt mentioned, it is possible to cool down to 5 ° before turbidity can be observed. If 10 parts by weight of the ethylglycol monoethyl ether are added to 100 parts by weight of the 30% strength solution mentioned, turbidity is only noticeable on cooling to 3 °.

Example 2

10 parts by weight of 1,3-butylene glycol are added to 100 parts by weight of the 30% strength solution used in Example 1. A cloudiness only occurs on cooling to temperatures below 13 °. If 5% butylene glycol is added to a 20% strength solution of the salt mentioned in Example 1, the solution begins to turn cloudy at 10 °, and if 5% glycol is added at 14 °.

The hot 30% strength solution of the ammonium salt of the sulfonic acid used in Example 1 separates out sediments on cooling to temperatures below 45 °. If 10 parts by weight of the monoethyl ether of diglycol are added to 100 parts by weight of the solution, it only becomes cloudy at -3 °. An addition of 5 parts by weight of the monoethyl ether of glycol reduces the occurrence of cloudiness to temperatures below -1 °, while an addition of 5 or 10 parts by weight of glycol causes cloudiness at temperatures of 14 ° and 0 °.

Claims (1)

Solutions of salts of alkylated benzenesulfonic acids, characterized by a content of water-soluble aliphatic hydroxyl compounds.