DE837915C - Method and device for the hydrogenation of unsaturated compounds, especially unsaturated fats - Google Patents

Description

(WiGBl. P. 175)

ISSUED MAY 2, 1952

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is used

The formation relates to hydrogenation of unsaturated compounds, especially the hydrogenation of fats, e.g. B. on the production hydrogenated oils and fats for human consumption.

The subject of the invention is a new hydrogenation process, which results in a considerable acceleration of the reaction while at the same time providing a allows a wide range of hardness levels of the product. The speed of response is high iR'S especially advantageous when it comes down to to preserve the hydrogenated material, especially fats, to preserve its aroma and its dissolution or to prevent his ruin.

The known processes for hydrogenation can be used in three different types or types of application divided into: a) excess of hydrogen,

b) Ül> shot of unsaturated material and

c) excess of catalysts.

Various stirring methods are also in use. The mechanical one is commonly used Agitation of a material mixture and powder

catalyzed catalyst. It is also known, the hydrogen or the material or a Circulating an emulsion of material and hydrogen in the last two cases mentioned through and around solid catalyst bodies. Also the circulation is a mixture of the material and pulverized catalyst known.

The invention provides a new process for hydrogenating unsaturated compounds, in particular

ίο more unsaturated fats before, in the case of the invention the base material to be hydrogenated together with an admixed in powder form or in the Raw material suspended catalyst in hydrogen circulated at high speed and at the same time very lively by a means which at the same time ensures the circulation and the mixing is whirled through.

The base material to be hydrogenated is preferably mixed with or suspended in

ao th powdered catalyst by a centrifugal pump at high speed in a closed Line circulated, the raw material with the catalyst by the pump from the lower part of a boiler into the pipe

as and hydrogen through the pump from above the Material is conveyed from the boiler. Raw material, catalyst and hydrogen are used here emphatically mixed up and led back into the upper part of the kettle.

The hydrogenation process can be carried out continuously. The mix of raw materials and catalyst can be repeatedly swirled with hydrogen in a number of cascading stages fresh raw material with catalyst mixed in or suspended in it continuously fed to the first stage and a corresponding amount of hydrogenated material is continuously discharged from the last stage.

Ultimately, the reaction goes to 70 ⁰ Ai in the pump and by its movement, especially because the pump is filled with hydrogen. In fact, it has been found through experiments that i. if the gas is introduced into the upper part of the boiler and after the withdrawal of hydrogen therefrom is suppressed, the reaction ceases; 2. if the withdrawal of hydrogen is initiated again and the entry of fresh gas is interrupted, the reaction proceeds very well and the hydrogen is quickly and completely absorbed from the upper part of the boiler; 3. If, when the withdrawal of hydrogen has been initiated again, fresh gas of constant pressure is sucked into the pump, the reaction proceeds very well and sometimes stormily, and all the gas introduced is absorbed.

In the latter two cases the pump is fed with hydrogen, in the former case not.

In addition, the output changes very little compared to the boiler filling. The pipe the outlet mouth of the pump can also dip into the boiler without reducing the amount of the raw material hydrogenated in the unit of time is markedly reduced. So much for the reaction in the kettle is going on, it is influenced by the quantitative ratio between the hydrogen and oil. This ratio can range from 3 parts by volume of hydrogen and 1 part by volume of oil on the one hand up to ι space part hydrogen and 3 space parts oil on the other hand change depending on whether the kettle is a quarter full or three quarters full. Because the crowd of the hydrogen bound in the unit of time practically does not change in any case it is concluded that the reaction is taking place outside the kettle, d. H. in circulation through the interaction of the pump and the pipeline.

It should be emphasized that the method and the chosen form of the apparatus are particularly favorable are for the application of heavier metallic bodies than catalysts, whose gravity they during the turmoil necessarily brings her to where her presence is at is most effective.

Apparatus for performing the procedure can consist of the following composition: a heatable boiler, a centrifugal pump for high speed and large throughput, which by mechanical means, e.g. B. Motor, turbine od. The like. Is driven, a pipe that the connecting the lower part of the boiler to the suction side of the pump, a pipe from the outlet side to the upper part of the closed vessel and preferably a line for feeding hydrogen into the centrifugal pump.

The drawings show schematically two versions for carrying out the method according to the present invention.

Fig. Ι shows an apparatus for performing a interrupted hydrogenation process;

Fig. 2 shows an apparatus for carrying out a continuous hydrogenation process.

According to FIG. 1, a boiler 1 withstanding an internal pressure of more than 10 kg / cm ^{2 contains} a mixture 2 of oil and powdered catalyst under a hydrogen atmosphere 3. A pipe 4 connects the lower part of the boiler 1 with the suction side of a centrifugal pump 5, which is driven by electric motor 6. Another line 7 returns the thrown oil-catalyst mixture from the outlet side of the pump 5 to the upper part of the boiler 1.

A distributor plate 8 serves as a baffle surface for the oil jet when it enters the boiler the pipeline 7. A line 9 which ends behind the distributor plate 8 and which is passed through the pipeline, 4 is enclosed, occurs in the center of the pump 5 and is used to feed the sucked in by the pump Hydrogen in their central part. A line 10 opening into this line 9 is used for feeding in fresh hydrogen under pressure.

Furthermore, the following can be provided: a filling line 11, a heating device 12, a thermostat 1 * 5 13 and a tap 14 for taking samples for the purpose of

throttling the hydrogenation or its termination at the required time.

The lower part of the boiler ι is rounded so flat, that there is a risk of sedimentation of the powder suspended in the oil to be treated Catalyst is reduced to a minimum at this point.

In the case of uninterrupted operation in apparatuses as shown schematically in FIG. 2,

ίο the mixture consisting of the raw material to be treated and powdered catalyst is fed continuously through a line i8 in the direction of arrow F to the first boiler element ι which contains the oil-catalyst mixture 2 under the pressure of hydrogen 3. The mixture runs through line 4, pump 5 and line 7 at such a speed that the pump drives the amount of substance to be treated in 1 hour every minute. In one section, the pipe

ao line 4, similar to Fig. 1, contain a line 9, by means of which hydrogen is sucked out of the upper part of the boiler 1 under the suction effect of the pump 5. A line also serves 10 also here for feeding in fresh water

»5 fabrics.

In relation to the introduction of the starting material into the boiler 1, part of the with powdered catalyst mixed and incomplete product containing hardened parts transferred via line 16 into the lower part of the following boiler element 17 and so on.

Finally, the container 20 receives the completely finished product.

Valves 21 allow the boiler to be emptied.

Of course, the apparatus shown schematically in Fig. 2 serves only as an example and the only one Purpose to show that the high rate of hydrogenation and application of a powdered catalyst gives good results in a continuous hydrogenation process lead, without restriction by the type of apparatus used.

Another embodiment can be in the direct series connection of a number consist of pumps, with a feed tank at the beginning and a receiving tank at the end, whereby the intermediate boilers are missing. The circulation of hydrogen can be brought about in connection direct feeding into one or more pumps by sucking off the hydrogen from the feed container and / or from the receiving container through one or more Pump.

Claims (14)

Patent claims: i. Process for hydrogenating unsaturated oils and fats, characterized in that the Base material to be hydrogenated together with a powdered oil or in the raw material suspended catalyst in hydrogen at high speed in a closed loop guided and through a circulation and mixing at the same time Medium is swirled very vigorously. 2. The method according to claim 1, characterized in that that the raw material, the catalyst and the hydrogen by a centrifugal pump are brought into circulation at high speed in a closed circuit, adding the base material to the catalyst through the pump from the bottom. Part of an im Circulation circuit lying container, and the hydrogen by the same pump from the upper part of the same container sucked off, all three swirled vigorously with each other and then be pushed back into the upper part of the same container. 3. The method according to claim 2, characterized in that that the base material returned to the container is sprayed by impact on a solid surface to free hydrogen to be eliminated from the raw material. 4. The method according to any one of claims 1 to 3, characterized in that the base material, the catalyst and hydrogen at least sixty times during the period of one Hydrogenation process are brought into circulation. 5. The method according to any one of claims 1 9 «> to 3, characterized in that the base material, the catalyst and the hydrogen circulated several times in 1 minute. 6. The method according to any one of claims 1 to 5, characterized in that it is at low pressure is applied. 7. The method according to any one of claims 1 to 5, characterized in that it is below high pressure of about 10 atmospheres. 8: Method according to one of the preceding claims, characterized in that the Mixture of raw material and catalyst repeated with hydrogen in a number cascade-like levels are whirled around, with fresh raw material mixed with or suspended catalyst fed continuously into the first stage and In relation to this, the base material hydrogenated is continuously discharged from the last stage will. 9. The method according to claim 8, characterized in that fresh hydrogen in the first circulatory and fluidizing agents and into some or all of the following circulating or Vortex agent is fed. 10. Device for performing the method according to one of claims 1 to 7, characterized by a closed ring line system provided with circulating media from a centrifugal pump of high speed and high volume, a line to the raw material with mixed or suspended powdered catalyst to the 1 * 5 pump inlet, a line to at the same time supplying hydrogen to the pump inlet and a return line for the mixture made of raw material, catalyst and hydrogen, which the pump swirls vigorously through and is returned. 11. The device according to claim io, characterized characterized in that there is a container in the ring line system and that the supply line for raw material and catalyst emanates from the bottom of the container, while the feed line for hydrogen emanates from a gas space in the upper part of the container and the return line returns to the container. 12. The device according to claim ii, characterized in that the feed line for the hydrogen is carried within the line through which the base material with the catalyst is fed to the pump. 13. Device for performing the method according to claim 8 or 9, characterized in that that each of the stages consists of a cycle that includes a container, circulation ■ and Fluidizing agents, such as B. a centrifugal pump, a supply line for Raw material and catalyst from the bottom of the associated container to the circulating medium, one Feed line for the hydrogen from. the top of the tank and a return line for raw material, catalyst and hydrogen, through which the 3 " whirled mixture is returned to the top of the container. 14. Device for performing the method according to claim 8 or 9, characterized in that that the first and the last of the series of stages from a circuit with container., Circulation and swirling means and lines as specified in claim 13, on the other hand, each of the intermediate stages consists only of a circuit with circulating and swirling means and these intermediate stages pipes for receiving the mixture of raw materials and catalysts from the previous circuit as well as other lines for passing on the mixture to the following circuit and for some or all of the intermediate stages lines to Absorption of hydrogen from the container of the first and the last stage or one of both are attached. 1 sheet of drawings 5137 4.