DE960193C - Process for the production of acrylic acid nitrile from acetylene and hydrocyanic acid - Google Patents

Description

Process for the production of acrylonitrile from acetylene and hydrocyanic acid It is known, acrylonitrile by reacting hydrogen cyanide with acetylene in acidic to produce curposalthaltigen catalyst solutions.

For this purpose, solutions of the complex salts of copper (I) chloride are used, z. B. with ammonium chloride or potassium chloride. In the technical implementation of this Implementation, it is desirable to achieve the highest possible performance of the catalyst, expressed in grams of acrylonitrile per liter of catalyst and per hour. One has therefore tried the catalyst liquid and the gas stream by stirring in intimate To bring touch. However, the technical implementation of this procedure is difficult given the large dimensions of the reaction vessels. With others Working methods (see, for example, »CIOSz reports No. 33 to 50, 5.560) are used to guide this Gas through nozzles into the catalyst solution, which causes a rapid circulation of the liquid effect in the catalyst vessel.

It has now been found that one can in a much simpler way a significant increase in catalyst performance is obtained when the catalyst surface-active substances that act as wetting or foaming agents, such as mineral oil sulfonic acids, Naphthalenesulfonic acids or reaction products of fatty alcohols with ethylene oxide clogs. The increase in catalyst performance that is achieved as a result is Generally about 25 01ob can, however, with particularly favorable surface-active substances Averages also reach up to 50 ° / 0.

This result can be described as surprising, because it had to be be expected that the addition of a wetting agent or an emulsifier to the The catalyst solution used, which contains about 780 g of copper (I) chloride per liter, Contains 340 g of ammonium chloride and 1 g of hydrogen chloride, a salting out of the surface-active Substance takes place and this becomes ineffective.

From the German patent specification 710 I3I, the German patent application F 523I IVc / 12 0 (Patent 9I3 420) and from the Chemisches Zentralblatt, Vol. 1938, I, p. 4654, paragraph 2, lines 4 and 6, it is known that emulsifying or wetting agents used to ensure intimate contact of two immiscible Effect layers.

However, the implementation of the participants takes place in these cases in a liquid manner State and not between two gaseous ones as in the method of the invention Compounds in the presence of an aqueous layer.

In the German patent specification 859611 are also two Gases reacted in the presence of a liquid layer and a wetting agent, however is carried out in this case in the presence of inert solvents, so that none comparable conditions exist with the method according to the invention ..

Example I By 3 l of a catalyst containing 780 g of cuprous chloride per liter Contains 340 g of ammonium chloride and 0.5 g of hydrogen chloride, if you go "one with hydrocyanic acid charged acetylene stream of 400 1 per hour passed. After leaving the reaction vessel the gas flow goes through a washing tower sprinkled with water in which the acrylonitrile is washed out. The gas flow then goes back to the reaction vessel. This gas stream, which consists essentially of acetylene, is set before it enters the reaction vessel Hydrocyanic acid too. The acetylene consumed by the reaction that occurs is increasing supplemented with fresh acetylene.

The reaction is initially carried out without the addition of wetting agents. After about 12 hours, a uniform acrylic acid nitrile formation of 13 g has occurred set per liter of catalyst per hour. Now add 12 to the catalyst g of a mineral oil sulfonic acid (known under the trade name "Mersolat").

The gas flow is distributed much better in the reaction liquid. The gas bubbles become finer and one forms on the catalyst liquid Foam layer. The acetylene uptake that occurred before the addition of the "eMersolate" 8.8 g per liter and per hour increased to II.6 g per liter and per hour. the The formation of acrylonitrile increases accordingly from 13 to 17.7 g per liter of catalyst and per hour.

Example z The method of operation is the same as in Example I.

After a reaction time of 12 hours, 10 g of diisobutylnaphthalene-I-sulfonic acid are added to the catalyst solution Sodium (known under the trade name »Nekal BXa) corresponds to 3.3 g each Liters added.

The acetylene uptake before the addition was 10 g per liter of catalyst solution and per hour. It rises to 12 g per liter and per hour. Acrylonitrile formation increases accordingly from 15 to 18 g per liter and per hour.

Example 3 With otherwise the same working method as in Example I. one of the catalyst liquid after 12 hours 12 g, i.e. 4 g per liter of an ethoxylated Fatty alcohol (known under the trade name "Emulphor 0").

The performance of the catalyst solution is: Before the addition After the addition Acetylene uptake gg per liter I2.6 g per liter per hour per hour Acrylonitrile - 14.4 g per liter 20.2 g per liter yield per hour per hour

Claims (1)

PATENT CLAIM: Process for the production of acrylonitrile by Implementation of circulated acetylene with hydrocyanic acid in the presence of aqueous Solutions of cuprous salts of strong acids, characterized in that the catalyst liquid Adds water-soluble, surface-active substances, especially through foam formation cause a good distribution of the gas flow in the catalyst liquid. Publications considered: German Patent Specifications No. 710 I3I, 859 6II; German patent application F 523I IVc / 120 (patent 9I3 420); Chemical Zentralblatt, Vol. 1938, I, p. 4654.