RU2019145739A - METHOD FOR ION-PLASMA PULSE IMPACT ON LOW-WATERED OIL AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (5)

1. The method of ion-plasma pulse action on low-water-cut oil, including the processes of pumping a conductive liquid into it and passing through electrodes immersed in it, connected to sources of constant electric current and an electric pulse signal, and creating electrolysis processes and electric discharges in the discharge chamber between the electrodes through the injected liquid to ensure the mode of electrochemical and ion-plasma processes in it, characterized in that an electrolyte-oxidizer in the form of a suspension or a gel is used as a conductive liquid, including a gas-filled one, which through a capillary channel that can act as a current conductor and is placed in connecting the electrodes and the signal source to the cable, is pumped directly into the discharge chamber formed by the cavity between the outer tubular electrode and the inner tubular electrode of the coaxial discharge head, through a channel in its inner electrode, and which enters into an exotherm chemical reaction with the products of high-temperature cracking and electrocracking of oil, formed as a result of ion-plasma processes in the discharge chamber under the influence of electrical impulse signals, and a constant electric current is additionally used for the galvanic transfer of a substance from the external electrode to the internal electrode. 2. A device for implementing the method according to claim 1, which is a discharge cable lug, consisting of inner and outer electrodes located coaxially and separated by an insulating sleeve, characterized in that it has a discharge cavity at its end, consisting of an annular and cylindrical parts, the inner electrode is longer than the insulating sleeve by the height of the annular part of the cavity, and the outer electrode is longer than the inner one by the height of the cylindrical part of the cavity, the inner electrode is tubular and connected to the outlet of the capillary channel in the supply cable. 3. The device according to claim 2, characterized in that the outer surface of the external electrode has an electrically insulating coating. 4. The device according to claim 3, characterized in that the inner surface of the outer electrode has an electrically insulating coating. 5. The device according to claim 2, characterized in that the surface of the inner electrode has an electrically insulating coating.