DE1061300B - Method and device for carrying out chemical reactions - Google Patents

Description

Method and device for carrying out chemical reactions It is known that chemical reactions take place in one of an electrical discharge, in particular an electric arc discharge, can carry out a filled space, energy-rich compounds can be obtained as reaction products. For example you can split hydrocarbons of very different chain lengths in this way and dehydrate to acetylene in good yield. The advantage of this way of working The main thing is to convert the starting materials very quickly into the actual Bring in the reaction zone, and also very high energy states in the reaction zone and finally a very quick one with relatively simple means Can achieve cooling of the reaction products. This allows equilibrium adjustments that cannot be achieved with the help of thermal energy.

So obviously advantageous to carry out chemical reactions is in rooms filled with electrical discharges, there is a wider one Applying this method the relatively high cost of maintaining it counteracts the electrical discharge during the reaction processes.

This is due to the fact that a large part of the electrical energy, which are supplied to such discharges, not in the form of high-energy reaction products can be obtained back, but only to stabilize the electrical Discharge is consumed. This is especially true for discharges of considerable length expansion, z. B. those of a length of 1 m and more, which you can use when using single-phase or polyphase alternating current generally only under considerable technical conditions Difficulty can sustain. In such cases you have to use DC voltage work and use expensive rectifying equipment for this purpose.

The present invention aims to overcome these difficulties Eliminate, in particular the energy supplied to the electrical discharge practically completely available for the actual chemical reactions and also the use of single or multi-phase alternating current, in particular with large electrode gaps.

This object of the invention is achieved in such a way that at least one of the electrodes between which the electrical discharge takes place in the immediate vicinity Area of a charge carrier source is located, which is caused by a continuous flame reaction is formed, the flame reaction spreading over at least 10% of the distance extends between the two electrodes in the direction of the counter electrode.

The one for maintaining the discharge, especially with AC voltage and great lengths, required charge carriers are thus according to the invention of a flame produced by burning some fuel with air or Oxygen is a continuously flowing source of such charge carriers. A gaseous or vaporous reaction is preferably used for this flame reaction Fuel. The combustion can take place with ordinary air, with oxygen-rich air or be maintained with pure oxygen, depending on the special conditions, which must be observed during the chemical conversion to be carried out. The selection of the gaseous fuel also depends on which combustion products may arise and which one would like to avoid as much as possible. If you want, for example in the intended chemical reaction one sensitive to water vapor Generate substance, one will choose a gas for the flame reaction, if possible contains little hydrogen, so that when this fuel is burned accordingly little water vapor is formed. It also becomes the fuel for the flame reaction select so that it delivers a flame as rich as possible in charge carriers. Should the amount of charge carriers formed in the flame reaction for maintenance the discharge is not sufficient, it is moderate, the fuel to mix in certain substances in finely divided form, which in particular when heated form ions to a high degree. These include, above all, the halogen compounds 4-alkali and alkaline earth metals.

The flame length of the combustion reaction depends on that for flame formation fuel used, and also on the throughput of the starting material to be converted and finally also on the dimensions of the device parts as well as in particular also on the shape of the electrodes. It can be said that the length of the flame is no shorter than about 10s / o of the distance between the electrodes. It has shown, that the heat of combustion, which is released by this flame reaction, has enough charge carriers brings about to completely stabilize the electrical discharge, so that the electrical energy converted in the discharge almost entirely for the intended purpose chemical reactions is available.

If the starting material to be converted in the area of electrical discharge is itself a combustible gas, one can rely on the supply of a special fuel gas for the purpose of generating the flame reaction and only for the training the flame reaction for part of the combustible starting gas oxygen supply, d. H. work with a so-called reverse flame.

Finally, it is also possible if the substance to be converted is combustible is, a part of it together with oxygen or air for the formation of the To use flame reaction, this being set so that dehydration of the fuel, if hydrocarbons are involved. One of those Dehydration is then superimposed on the electrical discharge in an adjustable strength, in which the rest of the starting material is then also converted. By this measure the flame temperature and the yield of the desired products can be increased increase, especially an end product with an increased concentration of dehydration products obtain.

The design of the device for carrying out the invention Procedure can be done in very different ways. The following is a device described, which is shown in schematic form in the drawing and on the the invention is to be explained in more detail. It shows Fig. 1 a longitudinal section through the device and Fig. 2 a section through the device in the plane 11-11 of Fig. 1.

The conversion space in which the electrical discharge is sustained and the chemical reactions are carried out consists of the housing 1, which is normally grounded. The electrodes 2 and 2 open into this housing 3. The electrode 2 consists of an insulator 4, at one end of which is the metallic Electrode head 5 is located.

The insulator 4 has a central bore 6 through which the to be implemented Output material, which is supplied through line 7, reaches the head 5. there - the output material is guided laterally through channels 8 and deflected so that it is out exits the electrode head 5 through openings 9 in an approximately tangential direction. The starting material - a gas or steam - then follows the general flow in the direction to the (like the housing 1 grounded) counter-electrode 3, with the good one around the Axis of the discharge executes revolving helical movement.

A tube 10 is guided centrally through the bore 6 in the insulator 4, the fuel required for the flame reaction as well as the oxygen to the Electrode head 5 conducts. It is advantageous if the end of the tube 10 or the bore 11 located therein below the front boundary surface 12 of the electrode 5 comes to rest so that the flame 13 already begins in level 12. The electric Discharge has approximately the course indicated at 14 and ends at the cooled counter electrode 3. This consists of a tube 16 surrounded by a water jacket 15, into which the reaction mixture is sucked and cooled down as quickly as possible by touching the cold walls. 17th means the voltage source, for example the high-voltage side of a transformer.

The method according to the invention can be very different for the production End products are used. One can, for example, use the procedure to from a mixture of paraffinic hydrocarbons and water vapor a similar to city gas Generate fuel gas. It is also possible to conduct the procedure in such a way that that from low molecular weight hydrocarbons by a dehydrogenative cleavage mainly acetylene is produced.

The procedure is normal or just insignificantly normal Different pressures carried out.

PATENT CLAIMS 1. Process for carrying out chemical reactions, the gaseous or vaporous starting material being passed through an electrical discharge is, characterized in that at least one of the electrodes between which the electrical discharge takes place in the immediate vicinity of a charge source is located, which is formed by a continuous flame reaction, the Flame reaction extends over at least 10% of the distance between the two electrodes extends in the direction of the counter electrode.

Claims (1)

2. The method according to claim 1, characterized in that the flame reaction from burning a gaseous or vaporous fuel with air or oxygen consists. 3. The method according to claim 2, characterized in that the fuel such solid, liquid or gaseous or vaporous substances are added, which form charge carriers to a particularly high degree when heated. 4. The method according to any one of claims 1 to 3, characterized gekennzeicbnet, that the starting material to be converted is close to being in the range of the flame reaction Electrode introduced into the reaction zone formed by the electrical discharge will. 5. The method according to claim 4, characterized in that the output is well introduced into the reaction zone through channels located in the electrode and, if necessary, serves at the same time to cool the electrode. 6. The method according to claim 4 or 5, characterized in that the output material while executing a helical movement around the axis the electrical discharge is introduced into the reaction zone. 7. The method according to any one of claims 1 to 6, characterized in that that when using combustible starting material a part of the same for Maintaining the charge carrier-forming flame reaction is used. 8. The method according to claim 7, characterized in that the burning carried out at least part of the starting material under such conditions is that thermal cleavage and dehydrogenation takes place in some cases. 9. The method according to any one of claims 1 to 8, characterized in that that a mixture of paraffinic hydrocarbons and water vapor is formed a fuel gas similar to city gas subjected to the action of the electrical discharge will. 10. The method according to any one of claims 1 to 8, characterized in, that low molecular weight hydrocarbons a dehydri erenden cleavage with formation of preferably Acety-Jen are subjected. 11. The method according to any one of claims 1 to 10, characterized in, that the implementation at normal or only slightly deviating from normal pressure Pressing is carried out. 12. The method according to any one of claims 1 to 11, characterized in that that the electrical discharge is operated with single or multi-phase alternating voltage will. 13. Apparatus for performing the method according to one of the claims 1 to 12, characterized by an essentially solid, live electrode, which has a central bore for the supply of the fuel-oxygen, which forms the flame reaction (Air) mixture and further channels for the preferably tangential introduction of the output material to be converted has, and by a grounded, tubular, with counter electrode provided with a cooling jacket.