PL30488B1 - - Google Patents

Description

It is known to separate emulsions and similar mixtures, for example, oil and water, by subjecting them to an electric current by means of metal electrodes suspended in a reaction vessel and supplied, in particular, with an alternating or three-phase high voltage current. The difficulty arises that during the process with a high water content in the emulsions, the intensity of the current is extremely high in relation to the energy consumed. This, too, has already been proposed, with a higher initial water concentration in the emulsions, to keep the currents low by using, for example, glass-insulated metal electrodes. In this way it is possible to keep the current at the beginning of the electric current low, but with a low electrode capacity it then decreases further as the emulsion dewatering proceeds. The following describes how the difficulties in electric splitting of emulsions can be eliminated. According to the invention, electric splitting of emulsions is carried out in such a way that the conductors supplying electricity, in particular to metal electrodes, are connected to one or more capacitors with a continuously or gradually regulated capacity, the capacitance of the condensers being gradually increased or shortened as the emulsion drainage increases. operation of the separating device at approximately uniform current intensity. The device can optionally be selected so that the capacitances of the capacitors are gradually enlarged or completely closed during operation in strict dependence on the change in the current intensity. The capacitors are (preferably) connected in the conductors supplying the current to the electrodes outside the reaction vessel. In most cases it would be sufficient to insert the capacitors in the lead wire of one of the two electrodes or the electrode pairs. In some cases, especially when separating emulsions with a high water content or when using a three-phase current, it may also be necessary to connect regulated capacities in the feed lines of all electrodes. Finally, in all cases, the system can be chosen so that the capacities are controlled in strict accordance with the change in the current in the reaction vessel. As a result, it is possible to use the system shown in a particularly simple and convenient manner. Figures 1 and 2 show two examples of use of the subject of the invention. In FIG. 1, the number 1 denotes the vessel containing the separating emulsion 2, for example an oil-water emulsion. The splitting of the emulsion is induced by two electrodes 3 and 41 placed in the reservoir and connected by conductors 5 and 6 to the secondary winding of the transformer 7 supplied from the AC mains. Conductor 5 is connected to a rotating capacitor 8, which may also be short-circuited. By means of a sphincter 9. With such a device, it is possible to regulate the supply of current to the electrodes of the tank of the splitter in any way according to the increasing degree of dehydration of the emulsion. In line 6, four capacitors 10 are connected in parallel with each other, 11, 12, 13 and a swivel contact 15, mounted on an axis 14, with which the four capacities 10-13 can be turned on and off in sequence. The supply of electricity to the electrodes can also be chosen freely by means of such a device. Instead of four, of course, an even greater number of capacities can be used. Fig. 2 shows another embodiment of the device by which a regulation of the capacity is achieved in strict accordance with the current. The number 1 again indicates the tank containing the emulsions 2, intended to be separated. In this tank the electrodes 3 and 4 are placed. Both electrodes are connected by means of conductors 5 and 6 to the secondary winding of the transformer 7, supplied from the AC mains. A rotating capacitor 28 is connected to the conduit 6, disengaged by means of a splayed roller 29. A toothed wheel 30, placed on the shaft 29, engaging with the gear 31, is used to distribute it. 32, suspended by means of the coil spring 33. The iron core 32 is coaxially located in the current coil 34 connected to the conductor 6. According to the variation in the current flowing through the coil 34, the iron core 32 is thus drawn less or less. to coil 34 and thereby move gear 31 up or down, whereby the rotary capacitor 28 desirably distributes the supply current to the electrodes 2 to 3 and 4 in strict accordance with the intensity of this current. PL

Claims (5)

1. Patent claims. 1. A device for separating emulsions and similar mixtures by means of an electric current, characterized in that in the conductors supplying electricity to the electrodes, mainly metal, there are placed one or more capacitors with a capacity regulated continuously or gradually, with whereby the capacity of the condensers is suitably enlarged or reduced with the increasing degree of dehydration of the emulsions. 2. Emulsion separation device according to claim A device according to claim 1, characterized in that it has a system that distributes the capacity to regulate the capacity strictly depending on the current intensity. 3. Device for separating emulsions according to claim A method as claimed in claim 1, characterized in that the capacitors are placed in a conductor carrying current to one of the electrodes. 4. An emulsion splitting device according to claim 1. The method of claim 1, characterized in that the capacitors are placed in the conductors carrying current to all electrodes. 5. Device for splitting emulsions according to claim The process of claim 3 or 4, characterized in that the capacitors are connected to the lines outside the reaction vessel. Siemen s * -L u r g i-C o 11 r e 11 Elektrofilter-Gesellschaft m.b.H. f ii r Forschung u. Patentverwe r t u n g Deputy: engineer W. Romer, patent attorney Staatsdruckerei Warschau — No. 8631-42. To patent description No. 30488 / Fig. 1 10. ^^ 9 y 7 3 Vi / ft jL y * 11 12 13 IL ¦t! A -fi -ii ^ / # tf ^ / 7 ^ - PL