SU1164377A1 - Deep-well three-electrode heater - Google Patents

Abstract

BOTTOM THREE-ELECTRIC HEATER, including a source of pulsed current and stationary electrodes in fluoroplastic bodies with moving fluoroplastic tips, which also means that, in order to increase the efficiency of the device by adjusting the working surface of the electrodes with compressed air, the fluoroplastic tip has been designed by a heated electrode. located along its axis cylindrical holes of a step-increasing section and with an annular groove in the lower part and provided with a mouth tained in the groove bottom of the stopper and fixed electrodes rubber cuffs, with pistons connected thereto and arranged -; inside the holes of the tip springs, while one of the electrodes (I am equipped with a fitting for supplying compressed air and is made with a central hole coaxial with the hole of the tip.

Description

Od 4iik CO. The invention relates to the restoration of the permeability of the filter zones of wells, in particular to the heating of a liquid in a well, for intensifying the processes of clogging formations. A downhole heater is known, including a source of pulsed current, a cable, an electrode in a fluoroplastic housing and a fluoroplastic tip screwed onto the electrode. The heater is placed in the filter zone of the well, where an aqueous reagent solution is prepared in advance. A negative electric potential is applied to the heater electrode from the pulse source tOKa, and a positive electric potential is supplied to the casing of the well. An electric current flows through the aqueous solution, which causes an abundant release of Joule heat into the environment of Cl J. A significant disadvantage of this heater is that for adjusting the working surface of the electrode to ensure maximum extraction of electricity when the solution is heated and the development of clogging formations, the heater must be removed at the wellhead. In addition, when a three-phase negative potential is applied to the electrode, an almost constant current flows through the reagent, which leads to the formation of a stable vapor-hydrogen shell around the cathode, which breaks the electrical circuit. The closest to the technical essence of the invention is a downhole three-electrode heater including a source of pulsed current and stationary electrodes in fluoroplastic housings With movable fluoroplastic tips j The heater on the tubing tubes is lowered into the treatment zone of the well. Movable disk with installed on it, the fluoroplastic shells move upward due to the rubbing forces of the rubber cuff, the inner surface of the casing well. The side surfaces of the electrodes in this case overlap completely. The height of the lateral surface of the electrodes, which determines the values 77 of the electric power extracted for heating, is established by raising to the required height of the heater. Moreover, due to the frictional forces, the movable platform remains in place with respect to the moving electrodes. A significant disadvantage of the known heater is the principle of adjusting the working surface of the electrodes due to the frictional forces of the elastic element (rubber cuff 7 on the casing string). This determines the descent of the heater into the well only on tubing pipes, which greatly complicates the technology of interval heating of the reagent in the wellbore. A replaceable set of rubber cuffs is required for work on wells of various diameters. Such a technique for adjusting the working surfaces of the electrodes eliminates the possibility of It is necessary to automate the process of maintaining optimum power take-off under conditions of conductivity change when heating the reagent and dissolving clogging formations in it. When lifting the heater from the well, the rubber cuff often enters the joints of the casing joints, and this leads to premature release These disadvantages caused by the design of the heater, significantly reduce the efficiency of the device as a whole. The purpose of the invention is to increase the efficiency of the device by adjusting the working surface of the electrodes with compressed air. This goal is achieved by the fact that in a downhole three-electrode heater, including a source of pulsed current and stationary electrodes in fluoroplastic bodies with movable fluoroplastic tips, the fluoroplastic tip is cylindrical with cylindrical openings of uniformly along its axis, with circular holes with a circular tooth. equipped with a plug installed in the groove and rubber cuffs-pistons with attached and to them by springs arranged inside the nipple holes, wherein one of the electrodes is provided with a nipple for supplying compressed air and vtolnen with a central opening coaxial with the ferrule opening. The drawing schematically shows a downhole three-electrode heater. The heater contains a pulsed current source 1, a cable stop 2, an electrode 3, cartridges 4, which are located in a conductive housing made of fluoroplastic 5, a hose 6 connected to fitting 7, a fluoroplastic tip 8 with a ring fluoroplastic screwed into its annular groove 9 on the thread plug 10, springs 11 located in the hole of the tip, rubber cuffs-pistons 12, and cable 13. The heater is lowered into the well, where an aqueous solution of the reagent is prepared in advance, which is to be heated to intensify the dissolving processes x filter and near-filter zone of formations on cable 13. Electrodes 3 from pulsed current source 1 are fed through cable wiring 2 and cartridges 4 and have negative single-phase potentials, and the casing well is connected to the positive pole of the source current current through the reagent, as under the action of the springs 11, the fluoroplastic tip 8 completely covers the lateral surfaces of the electrodes 3. To open the lateral - working surfaces of the electrode e, through the hose 6 from the compressor, air is supplied under a certain pressure. The magnitude of the pressure is controlled by the magnitude of the electric current in the circuit. Air through the hose 6 through the axial holes of the cartridge 4 and electrode 3 through the annular 7.4 groove 9 of the tip 8 penetrates the remaining two rubber cuffs-pistons 12 mounted on the ends of the other two electrodes, made already without axial holes, into the holes of the tip. With further supply of compressed air into the nozzle holes under the cuff-pistons, the air pressure begins to grow gradually. At a certain value of it, the handpiece begins to move relative to the electrodes, compressing the spring 11. An electric current appears in the circuit, the value of which is proportional to the height of the working surfaces of the electrodes and corresponds to a certain value of air pressure in the hose 6. The advantage of the proposed heater is that the working surface of the electrodes in it is carried out due to the energy of compressed air. In this design, there is no casing element that is designed to control the selection of the amount of electric power, and this eliminates the need for tubing pipes to run the heater into the well, which greatly simplifies the technology of interval heating of the resistive set of rubber sleeves when working on wells diameter. The absence of an element borehole significantly increases the service life of the heater. The pneumatic actuator for adjusting the working surface of the electrodes easily provides automation of this process. As a result, the efficiency of the thermoreagent method of well recovery is improved, the technology of filter cleaning is simplified, and labor productivity increases. jif 1164377 from the compressor

Claims (1)

Borehole three-electrode heater, including a pulse current source and fixed electrodes in fluoroplastic housings with movable fluoroplastic ⁰ tips, distinguishing with the fact that, in order to increase the efficiency of the device by adjusting the working surface of the electrodes with compressed air, the fluoroplastic tip is made cylindrical about with cylindrical holes of stepwise increasing section uniformly located along its axis and with an annular groove in the lower part and equipped with a cork in the groove and rubber cuffs-pistons fixed at the bottom of the electrodes with springs attached to them and located inside the tip openings, one of the electrodes being equipped with a fitting for supplying compressed air and made with a central hole coaxial with the tip opening. >