RU2007149490A - METHOD FOR OPENING LAYERS AND A DEVICE FOR ITS IMPLEMENTATION (OPTIONS) - Google Patents

Abstract

1. The method of opening the formation, including the descent into the well of the perforating device, the formation of at least one slot in the production string and subsequent hydromonitoring treatment of the bottom-hole formation zone (PZP) with the formation of caverns by creating excess pressure in the perforating device and supplying the opening fluid through at least one hydraulic nozzle, which is equipped with a perforating device, in the form of a jet directed into the formed gap, characterized in that at the beginning of the work on the formation of the gap the nozzle is closed to prevent the opening fluid through it, the working pressure is gradually created in the tubing and the perforation gap is formed, the opening of the nozzle is carried out after the start of the formation of the perforation gap, determined by the moment the perforating device is cut into the column wall or immediately after the column is opened determined by the moment the cutting tool extends to a distance sufficient to go beyond the wall of the column, or at the time of the maximum exit of the cutting tool beyond the wall of the column, then, when the gap is formed, increase the pressure in the tubing to create the effect of a jet at the outlet of the opening fluid from the hydraulic nozzle and perform the hydraulic monitoring of the PPP and the formation of caverns, at the end of the hydraulic monitoring, The tubing is reduced, the fluid supply through the hydraulic nozzles is stopped due to their overlap, after which the perforating device is raised to the surface or moved to a new perf interval

Claims (7)

1. The method of opening the formation, including the descent into the well of the perforating device, the formation of at least one slot in the production string and subsequent hydromonitoring treatment of the bottom-hole formation zone (PZP) with the formation of caverns by creating excess pressure in the perforating device and supplying the opening fluid through at least one hydraulic nozzle, which is equipped with a perforating device, in the form of a jet directed into the formed gap, characterized in that at the beginning of the work on the formation of the gap the nozzle is closed to prevent the opening fluid through it, the working pressure is gradually created in the tubing and the perforation gap is formed, the opening of the nozzle is carried out after the start of the formation of the perforation gap, determined by the moment the perforating device is cut into the column wall or immediately after the column is opened determined by the moment the cutting tool extends to a distance sufficient to go beyond the wall of the column, or at the time of the maximum exit of the cutting tool beyond the wall of the column, then, when the gap is formed, increase the pressure in the tubing to create the effect of a jet at the outlet of the opening fluid from the hydraulic nozzle and perform the hydraulic monitoring of the PPP and the formation of caverns, at the end of the hydraulic monitoring, The tubing is reduced, the fluid supply through the hydraulic nozzles is stopped due to their overlap, after which the perforating device is raised to the surface or moved to a new perf interval Oration, if necessary, the method is carried out repeatedly at one or more perforation intervals without additional operations for lowering and raising the perforating device. 2. A hydromechanical slotted puncher having a working unit, comprising a piston for extending the cutting tool in the housing and at least one hydraulic nozzle, characterized in that the hydraulic nozzle is made with the possibility of communication with the cavity of the housing, where the opening fluid is brought under pressure, leading to movement of the piston that extends the cutting tool, and the piston is located in the housing in such a way that, in the absence of pressure on it, it blocks the channel of the hydraulic nozzle, while The distance between the piston surface to which pressure is applied and the nozzle is less than the distance of the working stroke of the piston made when the cutting tool is pulled out before it is inserted into the casing wall, or corresponds to the distance of the working stroke of the piston made when the cutting tool is pulled out by a distance sufficient to its exit beyond the wall of the column, or corresponds to the distance of the piston stroke made when the cutting tool is extended to a maximum distance, is possible for the used design of the perforating device, with the possibility of opening the hydraulic nozzle when the piston makes the corresponding stroke and closing the hydraulic nozzle when the piston returns to its original position. 3. The hydromechanical slotted punch according to claim 2, characterized in that the hydraulic nozzle is made oriented towards the retractable cutting tool at an acute angle to the axis of the punch. 4. The hydromechanical slotted puncher according to claim 3, characterized in that the hydraulic nozzle is oriented towards the retractable cutting tool at an acute angle to the axis of the punch, the magnitude of which exceeds the angle formed by the axis of the punch and the straight line connecting the hydraulic nozzle to the extreme point of extension of the cutting tool. 5. A hydromechanical slotted puncher having a working unit, comprising a piston for extending the cutting tool in the housing and at least one hydraulic nozzle, characterized in that the hydraulic nozzle is made with the possibility of communication with the cavity of the housing, where the opening fluid is brought under pressure, leading to the movement of the piston that extends the cutting tool, and the piston is equipped with a mechanism for closing the hole of the nozzle, for example, in the form of a spool located on top of the piston, in the absence of pressure on the piston, the edge of the overlapping mechanism is located at a distance less than the distance of the working stroke of the piston made when the cutting tool is pulled out before it is inserted into the casing wall, or corresponding to the distance of the working stroke of the piston made when the cutting tool is pulled out sufficient for it to extend beyond the column wall, or corresponding to the distance of the piston stroke made when the cutting tool is extended enta to the maximum distance possible for the used design of the perforating device, with the possibility of opening the hydraulic nozzle when the piston makes the corresponding stroke and closing the hydraulic nozzle when the piston returns to its original position. 6. The hydromechanical slotted puncher according to claim 5, characterized in that the hydraulic nozzle is made oriented toward the retractable cutting tool at an acute angle to the axis of the punch. 7. The hydromechanical slotted punch according to claim 6, characterized in that the hydraulic nozzle is oriented toward the retractable cutting tool at an acute angle to the axis of the punch, the magnitude of which exceeds the angle formed by the axis of the punch and the straight line connecting the hydraulic nozzle to the extreme point of the cutting tool.