RU2011118834A - METHOD FOR HYDROPHOTIC TREATMENT OF THE BOTTOM-HOLE ZONE AND DEVELOPMENT OF A WELL AND An EJECTOR DEVICE FOR ITS IMPLEMENTATION (OPTIONS) - Google Patents

Abstract

 1. The method of hydropercussion treatment of the bottom-hole zone of the formation and development of the well, including isolating the formation with a packer, injecting chemicals into the bottom-hole zone of the formation, waiting for the reaction, barotreating the formation while waiting for the reaction in a pulsed mode by creating cyclic pressure pulses of repression and depression on the formation with pumping and pumping formation fluid, pumping out reaction products after the reaction and well development, characterized in that during the process of formation processing the injectivity during repression is controlled, the flow of depressions, increasing the pressure of the repression impulse is performed with a low slope of 1 ÷ 6 MPa / min, while reducing the pressure of the repression impulse and depression, they provide a high slope of 1 ÷ 6 MPa / s, and the amplitudes of the pressure pulses do not exceed the permissible pressure on the reservoir, the duration of the repression impulse in the absence of injectivity is limited until the maximum permissible pressure is reached, in the presence of injectivity - until the fluid volume is pumped in an amount not more than the fluid volume in the sub-packer zone, the duration of the depression pulse is absent tvii inflow operate equal repressionnogo pulse duration in the absence of pick-up, if the influx - pumping fluid to a volume equal to the volume of injected fluid at repression. ! 2. The method according to claim 1, characterized in that the pumping of the reaction products is carried out in a pulsed mode, and the duration of the depression pulse is controlled so that the volume of pumped out reaction products is several times greater than the volume of injected liquid during the repression pulse to the reservoir, and the magnitude of the multiplicity increase from 2 to 10 over

Claims (4)

1. A method of hydropercussion treatment of the bottom-hole zone of the formation and development of the well, including isolating the formation with a packer, injecting chemicals into the bottom-hole zone of the formation, waiting for the reaction, barotreating the formation while waiting for the reaction in a pulsed mode by creating cyclic pressure pulses of repression and depression on the formation with pumping and pumping formation fluid, pumping out reaction products after the reaction and well development, characterized in that during the process of formation processing the injectivity during repression is controlled, the flow of depressions, increasing the pressure of the repression impulse is performed with a low slope of 1 ÷ 6 MPa / min, while reducing the pressure of the repression impulse and depression, they provide a high slope of 1 ÷ 6 MPa / s, and the amplitudes of the pressure pulses do not exceed the permissible pressure on the reservoir, the duration of the repression impulse in the absence of injectivity is limited until the maximum permissible pressure is reached, in the presence of injectivity - until the fluid volume is pumped in an amount not more than the fluid volume in the sub-packer zone, the duration of the depression pulse is absent tvii inflow operate equal repressionnogo pulse duration in the absence of pick-up, if the influx - pumping fluid to a volume equal to the volume of injected fluid at repression. 2. The method according to claim 1, characterized in that the pumping of the reaction products is carried out in a pulsed mode, and the duration of the depression pulse is controlled so that the volume of pumped out reaction products is several times greater than the volume of injected liquid during the repression pulse to the reservoir, and the magnitude of the multiplicity increase from 2 to 10 during the pumping process. 3. A device for hydropercussion treatment of the bottom-hole zone of the formation and development of wells, including a tubular composite body with a lower connecting thread, a cylindrical hollow rod placed therein with an upper connecting thread, the housing and the rod are interconnected by dowels located in grooves on contacting surfaces in the upper part devices, and the rod is made with longitudinal grooves providing axial movement of the rod relative to the body, a nipple screwed between the upper and lower components of the hour casing, above the nipple in the casing are made differential chambers with a piston on the rod and sealing elements, differential chambers contain radial channels on the rod and casing, characterized in that the hollow rod is made with a through axial hole, radial channels in the differential chambers on the rod are made under the piston , in the housing are made above the piston, the nipple is made with a three-stage axial through hole, the upper hole has a diameter equal to the outer diameter of the rod, contains radial channels and seals For example, in the case of internal elements placed on the nipple above and below the radial channels of the nipple, the middle hole has a diameter equal to the inner diameter of the hollow rod, the lower hole has a diameter less than the internal diameter of the hollow rod, and the length of the longitudinal groove and the length of the rod are selected so that the rod is in the upper position provide the opening of the radial channels in the nipple, and in the lower position - their sealing, in the through axial holes of the device installed plug-in jet pump, made in the form of a cylindrical body, with a diameter equal to the inner diameter of the axial hole of the rod, an active nozzle and a mixing chamber with a diffuser are installed in the cylindrical body, a channel for supplying the working fluid to the jet pump is made in the upper part, a channel for supplying the mixture of working and pumped liquid in the middle is made in the middle part pumped liquids from the pump, with sealing elements between the channels on the outer surface of the cylindrical body, and the upper part of the jet pump with sealing elements is placed in the through rod anal, the lower part of the jet pump with sealing elements is located in the middle hole of the nipple, the radial channel for discharging the mixture from the pump is aligned with the radial channels on the nipple, and in the upper part of the cylindrical body of the jet pump to the supply channel of the working mixture there is a pipe drowned from above in it, in the middle part, with cylindrical cuffs made of elastic material, overlapping the inner diameter of the pipe string in the well by 80-90%, a filter in the form of radial openings is made in the upper part of the nozzle diameters less than the diameter of the nozzle of the jet pump and a total area of not less than the area of the through channel of the rod, and in the lower part of the cylindrical body an adapter is made to wind an autonomous pressure gauge. 4. Device for hydropercussion treatment of the bottom-hole zone of the formation and development of wells, including a tubular composite body with axial holes and connecting threads, housed in it by a cylindrical hollow rod with the possibility of axial movement, a nipple between the upper and lower components of the body, characterized in that the nipple is made with radial channels, the hollow rod is made with a through axial hole with a narrowing of the diameter in the lower part, is hermetically placed in the axial hole of the lower part of the body, is tightened from the bottom spring with a thrust pipe screwed onto the lower part of the body, the rod is pressed by a spring to an annular groove with a sealing element made on the lower end surface of the upper part of the body and thereby provides mechanical sealing and sealing of the radial channel of the nipple, and the diametrical dimensions of the annular groove are equal to the diametrical dimensions of the upper the end face of the rod, and the diametrical dimensions of the rod: D1 is the outer diameter of the rod, D2 is the outer diameter of the rod in the upper end, D3 is the inner diameter of the rod in the upper end I thus, that the cross-sectional area between diameters D1 and D2 is larger than the area between the diameters of the end surfaces D2 and D3, the upper part of the housing contains a through axial hole equal in diameter to the through axial hole of the rod in the through axial holes of the device, there is an insertion jet pump made in in the form of a cylindrical body, with a diameter equal to the inner diameter of the axial hole of the rod, an active nozzle and a mixing chamber with a diffuser are installed in the cylindrical body, a channel for supplying work is made in the upper part whose liquid is in the jet pump, in the lower part the channel for supplying fluid pumped from the reservoir and in the middle part is the channel for removing the mixture of working and pumped fluids from the pump, with sealing elements between the channels on the outer surface of the cylindrical body, the upper part of the jet pump with sealing elements in the through axial hole of the upper part of the housing, the lower part of the jet pump with sealing elements is placed in the through axial hole of the rod, the radial channel for withdrawing the mixture from the nipple is aligned with the radial channels on the nipple, and in the upper part of the cylindrical body of the jet pump, a nozzle plugged from above is connected to the supply channel of the working mixture with cylindrical cuffs made of elastic material placed in it in the middle and overlap the inner diameter of the pipe string in the borehole by 80- 90%, in the upper part of the nozzle a filter is made in the form of radial holes with a diameter less than the diameter of the jet pump nozzle and a total area of not less than the area of the through channel of the rod, and cylindrically in the lower part The adapter was made for the winding of an autonomous pressure gauge.