DD228806A1 - PROCESS FOR IMPROVING ABSORPTION IN THE MANUFACTURE OF ACETALDEHYDE - Google Patents

Abstract

The invention relates to a process for improving the absorption of acetaldehyde formed in the reaction of ethylene and oxygen or acetylene and water. The aim is to increase the concentration of acetaldehyde in the crude aldehyde solution and thereby reduce the separation effort in the subsequent processing stage. The object of the invention is to improve the condensation process and thus the mass transfer in the separation of the crude aldehyde. According to the invention, in the reaction gas stream which is cooled and treated to about 85 ° C. in the usual manner immediately before the further cooling, which can take place in one or more stages by means of one or more coolers at temperatures between 85 ° C. and 20 ° C., water is so formed that a homogeneous aerosol is formed. The finely distributed water droplets act as condensation nuclei and participate in the mass transfer. The verdueste amount of water before each stage depends on the acetaldehyde concentration in the crude aldehyde gas.

Description

Title of the invention

Process for improving the absorption in the production of acetaldehyde

Field of application of the invention

The invention relates to a process for improving the absorption of the acetaldehyde formed in the reaction of ethylene and oxygen or acetylene and water.

Characteristic of the known technical solutions

Ss is -t-% ekanntr, "-that" in "" the production of acetaldehyde, for example according to DD-PS 20,939 from ethylene or according to DD-PS 22,987 from acetylene, 'the reaction gas mixture cooled and then the acetaldehyde and by-products , such as Sssig-

^ 5 acid, are absorbed as so-called Rohaldehydlösung in water. Due to the large mixture of solvents and mixtures of acetaldehyde, without additional use of cold, only concentrations of 7 to 10% by mass of acetaldehyde in the crude aldehyde are achieved. The previously known processes have the disadvantage of the high water content in the crude aldehyde.

Aim of the invention

The aim of the invention is to increase the concentration of acetaldehyde in the crude aldehyde solution and thereby. Lowering the separation effort in the subsequent processing stage »

Explanation of the essence of the invention

The invention has for its object to improve in the separation of the crude aldehyde by suitable means the KondensationsproseB and thus mass transfer.

According to the invention is cooled in the usual manner to about 85 ° 0 and. treated reaction gas stream immediately before further cooling, which in a

  .. or more stages by means of one or more coolers.

^ c can take place at temperatures between 8p ° 0 to 20 ° C, water sprayed so that a homogeneous aerosol is formed. The finely distributed water droplets act as condensation gases and participate in the mass transfer. The amount of water in front of each stage depends on the acetaldehyde concentration in the crude aldehyde gas and amounts to 0.6 l of water to 1 l of water per nr of crude aldehyde gas,

Practically, the process is performed so that in the head of the radiator or in several cooling stages in series «switched cooler by per se known nozzles one of the respective cooling stage equivalent amount of water in. the incoming gas stream is sprayed. After dissipation of the heat of solution and mixing and reduction of the heat potential of the reaction gas in or in the coolers, a high concentration of crude aldehyde occurs in the bottom of the or each condenser and is withdrawn. After cooling, the strongly depleted aldehyde reaction gas is added to a conventional gas scrubber

Leaching of the remaining crude aldehyde fed. It corresponds to the procedure according to the invention, if in place of the atomization of water, an equivalent amount of wet steam at the head of the radiator or in the Re akc gas stream is blown. The heat potential of the steam is then naturally dissipate in or in the cooler with.

The particular advantages of the novel procedure compared to the known art are s ~ ^ -] 0 is that a crude aldehyde high concentration produces '' - '' is / hich can be further processed energy cheap and the relatively low cost of the water atomization significant? It is also noted that the need for washing water is much lower.

The invention will be explained in more detail below using 3 examples:

Example 1:

A gas mixture consisting of about 65 ma% acetaldehyde, about 15 ma% unreacted residual gas (mainly ethylene) and about 20 ma% water was cooled from 80 ° G to 35 ° G. Before this cooling step, 0.7 l of water per mP of reaction gas were atomized. The effluent from the Kühlsr crude aldehyde had a concentration of about 40 ma% acetaldehyde. The concentration of total crude dehydrated solution consisting of condenser and absorption tower effluents was about 14 mass Ac et aide hyd.

Example 2: A gas mixture consisting of about 73 % by weight of acetaldehyde,

10% by weight of acetylene and about 15.% by weight of water were passed through at a temperature of about 70 ° C., about 25% by weight of water. Supplied nozzles distributed finely. Subsequently, the gas mixture was cooled in a cooler to a temperature of about 35 ° C. The effluent crude aldehyde solution had a concentration of 35-40 ma% acetaldehyde. This increases the total concentration of Eohaldehydlösung to about 15 ma%.

Example 3-

- . ·. After ... treatment of the gas mixture according to Bei-; A further Yerdüsen of about 35% by weight of water is carried out in front of another coolant in which the gas mixture is cooled to a temperature of between 25 and 30 ° C.

The resulting Eohaldehydlösung had a concentration of about 4-5 ma% acetaldehyde.

Claims (3)

Invention claim. 1. A process for improving the absorption of acetaldehyde from gas mixtures based on acetylene or ethylene, which is subjected after cooling to about 85 ° C and discharge of the process water of a gas separation by condensation and absorption, characterized in that immediately before the other Cooling of the gas to about 20 ° C, preferably in the head of the cooler by 7erdüsen of water in an amount of 0.6 1 to 1 1 per mr Sohaldehydgas in the gas stream a homogeneous aerosol is generated and after cooling the .Gasstrom. .in the usual .., way ..a. An absorption is subjected. 2. The method according to item 1, characterized in that. in place of, water vapor is blown into the gas stream. 3 · Method according to item 1 and 2, characterized in that the cooling of the gas to about 20 ° C takes place in several stages and before each cooling stage, an amount of gas equivalent amount of water or steam is supplied.