DE596818C - Process for the extraction of pure constituents or groups of constituents from mixtures of liquids - Google Patents

Description

In the known separation of liquid mixtures into two components or component groups by washing out with an extractant according to the countercurrent principle it is usually possible to obtain a pure raffinate. The simultaneously occurring However, the solution of extract in the extractant is rarely free of raffinate. It must therefore be processed separately if you also want to get a pure extract.

It has now been found that when liquid mixtures are broken down by washing out with an extractant based on the countercurrent principle, not only pure raffinate, but also pure solution of extract in the extractant is obtained when the raffinate-containing Ex- ■ Exposing the tract solution to a temperature gradient that is as uniform as possible. In this The case, in fact, decreases the dissolving power of the Extract solution for raffinate, which separates out and is opposite to the direction of flow emotional. It is even advantageous to design the temperature gradient so that not only the raffinate, but also part of the extract from the solution is then also separated out if the solution is already raffinate-free, which is possible because that too Solvent power of the extractant for the extract depends on the temperature is. The extracted extract also moves in the opposite direction to the flow. It then acts as a reflux from the corresponding previous layers of raffinate solution of extract is absorbed in the extractant, whereby the ratio of the individual components of the solution is changed so that raffinate separates. One thus obtains when working according to the invention without any inconvenient Auxiliary measures continuously pure raffinate, as well as raffinate-free extract solution, which is a significant advance over the known method, especially since this Can achieve progress with very simple apparatus. You need namely at the usual columns only feed the mixture to be broken down to a special one To place a suitable place between the bottom and the head and the part of the extract solution produced in the other part on is traversed their way to the outlet, provided with devices for generating the temperature gradient.

The invention is explained in more detail below with reference to the drawing, which is schematic an apparatus for carrying out one of the various possible embodiments of the invention shows.

The liquid mixture A + B , consisting of two components A and B to be separated, enters the column at 0. Above the column to be separated ίο liquid A - \ - B is fed through a perforated tube or an atomizer or the like. Specifically heavier extraction agent. The amount of the extraction agent X is controlled so that the comparable the column at the top of ^J 5 transmitting liquid is only the component A.

In the usual extraction, the solution of extract in the extractant would leave the column just below O; the result would be a solution that contains not just B, but A and B, and more B than A.

In the new process, however, this solution does not leave the column directly. Rather, it flows; first through the lower extension of the column; in this part the temperature of this solution is lowered by gradual cooling; this cooling takes place through cooling jackets 1, 2 and 3. The cooling itself is adapted to the prevailing flow velocity and the length of the extension so that all of the present in the solution is deposited, which then flows upwards in the opposite direction to the solution. In this case B is expediently also separated from the solution by the cooling, which likewise flows upwards and acts as a reflux, through which the excretion of A in the overlying layers of extract dissolving is supported. It is not necessary for the cooling to take place over the entire path that the solution has to pass through in the extension of the column. It is only essential that the solution leaves the extension of the column free of raffinate. On the other hand, however, the temperature gradient can also be extended to the part of the column which is above the raw material feed by using the heating jackets 4 and 5 surrounding this part of the column or by heating the extractant, in the latter case also in the upper part of the Column can be worked with cooling. The success of the process also depends on the ease with which the countercurrent caused by the difference in specific gravity takes place. This can be disrupted in part by the occurrence of emulsions. This disruptive side effect can be prevented by adding substances that are suitable for changing the surface tension between the liquids.

The method according to the invention is not limited to the use of Extraction liquids that are heavier than the liquid mixture to be separated. The relationships can also be reversed, without thereby affecting the essence of the invention being affected.

The method described can also be repeated several times both with the extract obtained and with the raffinate. Such an approach is particularly recommended if the source material comes from different ranks consists of bodies, the individual members of the rows as well as the rows below have properties that do not differ greatly from one another. The first extractant can then, for example, be used for separation of groups of homologues are used, which then with lesser amounts a more selectively acting and often more expensive extraction agent can be broken down further according to the invention. It also delivers a repetition of the extraction with the same extractant, but with one different temperature gradient, often good results.

example

A 10 m high pressure column is fed hourly per 100 square cm of cross section at the bottom, where the temperature is 150 ⁰ , 201 96 ° / ₀ alcohol and just below the middle, where the temperature is 140 ⁰ , 61 lubricating oil distillate, the sulfonatable and non-sulfonatable Hydrocarbons. At the end of the column the temperature is I20 °. The extract solution available there is raffinate-free. A cooler sits on the column through which the raffinate-free extract solution flows and cools it down in such a way that about 61 extracts per hour enter the column from the cooler. In continuous operation, about 4 liters of non-sulfonable raffinate, contaminated with a little alcohol, and about 22 liters of solution of sulfonable hydrocarbons in alcohol emerging from the cooler are obtained at the bottom of the column about hourly. Instead of cooling, the necessary reflux of extract can also be obtained from the raffinate-free extract solution by concentration.

The method according to the invention can be used in all types of extractions Find. For example, it is possible according to the invention to produce phenols from liquids with alcohols to extract, using insulating oils for the purpose of removing unwanted components

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for example, to purify isopropyl alcohol, and to refine petroleum distillates with liquid sulfur dioxide.

Claims (1)

Claim: Process for breaking down a liquid mixture into its constituent parts or Constituent groups by washing with a solvent according to the countercurrent principle, characterized in that the resulting solution of extract in the solvent continuously from the co-dissolved Raffinate is freed by exposing the solution to a temperature gradient that is as uniform as possible will. 1 sheet of drawings 117