RU2029078C1 - Method for treatment of bottom-hole formation zone and oil production - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: well is separated above zone of treated layer and zone is filled with solution for treatment of bottomhole formation zone. Solution is let stand. Then, zone of treated layer by pumping fluid to zone above point of separation and through casing-borehole annulus towards wellhead. Pressure is rebuilt in zone of treated layer. Operation is repeated up to appearance of oil inflow. Prior to pressure rebuilding, injected additionally into well is solution for treatment of bottom hole formation zone in volume ensuring filling of zone above point of well separation. Washing of zone of treated layer is combined with oil production. EFFECT: higher efficiency.

Description

 The invention relates to the oil industry and can be used in the processing of the bottomhole formation zone, the intensification of oil production.

 A known method of processing the bottom-hole zone of the formation, including the impact on the bottom-hole zone with multiple instantaneous depressions and repressions using jet pumps installed on the bottom of the column of tubing [1].

 The method allows you to clean the bottom of the formation from contamination. However, in some cases, the method is not applicable due to the insufficiency of only the depressive-repression effect for cleaning the bottom-hole zone.

 The closest to the invention in terms of technical essence and the achieved result is a method of treating the bottom-hole zone of the formation and oil production by dissociating the treated layer above, injecting an acid solution into the area of the treated layer, technological exposure, pumping out the reaction products of acids with the formation rock and cyclic effect using the jet pump in the mode of creating depression - repression on the treated layer, transferring the pump to the "depression" mode and oil production sportirovkoy on the annulus of the well to the mouth of [2].

 The known method allows for the processing of the bottom-hole zone of the well and oil production in a wider range of formations than with only depressive-repressive action.

 However, the effectiveness of the method is small due to the fragmentation of the process of creating depression-repression on the formation and the acid treatment of the formation.

 The purpose of the invention is to increase the efficiency of the method by combining the depressive-repressive effects with acid or any other treatment of the formation.

 This goal is achieved by the fact that in the method of processing the bottom-hole zone of the formation and oil production, including the separation of the well above the treated layer, filling the area of the treated layer with a solution for treating the bottom of the formation, washing the zone of the treated layer, creating a vacuum in the zone of the processed layer by pumping liquid in the zone above places of separation and annular space to the wellhead, pressure restoration in the area of the treated layer by fluid flow from the zone above places of separation into the zone of the treated layer, repetition of operations until oil flows into the well and oil is extracted from the zone of the treated layer through the zone above the place of separation in the annulus of the well, before pressure is restored, the zone above the place of separation of the well is filled with a solution for processing the bottom-hole formation zone, pressure recovery in the area of the treated layer, an overflow of the solution is performed to treat the bottom-hole formation zone from the zone above the separation point. The washing zone of the treated layer is combined with oil production.

The essential features of the invention:
- uncoupling of the well above the treated layer;
- filling the area of the treated layer with a solution for processing the bottomhole formation zone;
- carrying out technological exposure;
- washing the zone of the treated layer;
- creating a vacuum in the area of the treated layer by pumping liquid into the zone above the separation point and along the annulus to the wellhead;
- pressure recovery in the area of the treated layer by the flow of liquid from the zone above the place of separation in the area of the treated layer;
- repetition of operations until the influx of oil into the well;
- oil production from the zone of the treated layer through the zone above the place of separation along the annulus;
- filling with a solution for processing the bottom-hole zone of the reservoir zone above the place of separation of the well;
- the time of operation 6 - before the pressure is restored in the zone of the treated layer;
- the flow of the solution for processing the bottom-hole formation zone from the zone above the separation point into the zone of the treated layer and the restoration of pressure there;
- combination of washing the zone of the treated layer with oil production.

 The first eight features are common with the prototype, the last four features are significant distinguishing features of the invention.

 With depression-repression, i.e. in case of a vacuum-pulsed effect on the bottom-hole zone in the presence of a solution for processing the bottom-hole zone of the formation, in addition to the depressive-repressive effect, there is also a simultaneous physicochemical effect, for example, acid. Since depression and repression is accompanied by the movement of fluid to the walls of the well and into the bottomhole zone and vice versa, when combined with the solution, for example acid, is intensively filtered through the channels of the bottomhole zone, reacting with the rock and causing the formation of new and expansion of old channels. At the same time, the removal of clogging and pollutants from the expanded old canals is easier. This is due to the synergistic effect of the joint application of technologies. As a solution for treating the bottom-hole zone, acidic solutions, surfactant solutions, etc. can be used.

 To implement the method, a jet pump is lowered into a well on a string of tubing (tubing) together with a bag. The packer is placed over the treated layer or formation. When using plug-in inkjet devices, only their body is mounted, and the plug-in part is either installed by the fluid flow along the tubing, or descends inside the tubing on a wireline cable. The jet pump is lowered lower part under the packer, the upper part is connected to the tubing string, the jet is ejected from the pump over the packer into the annulus. Water is pumped through the tubing string, which occurs through the jet pump and is discharged above the packer. The resulting vacuum draws in the fluid from the sub-packer zone, creating a strong vacuum. The annular fluid rises to the wellhead.

 When the liquid injection stops on the tubing string, liquid is sucked into the sub-packer zone from the jet pump, from the overpacker zone and from the tubing string. Pressure is restored.

 By pumping water through the tubing string and the jet pump and taking it through the annulus, water circulation and rarefaction in the under-packer zone, i.e. depression and simultaneous removal of impurities along the annulus. When the injection stops, pressure is restored, i.e. repression.

 The period of water injection through the tubing string can last from a few seconds to ten minutes. An acidic or other solution is pumped through the tubing string so that when pumping is stopped it fills the jet pump, part of the over-packer zone and part of the tubing string adjacent to the jet pump. In each case, the volume of the acid or other solution, its injection time is determined depending on the depth of the well, the duration of the injection, etc.

 When the injection stops, an acid or other solution from the jet pump, the overpacker zone and from the tubing string will be sucked into the subpacker zone and into the bottomhole formation zone.

 It is necessary that the solution be pumped into the under-packer zone before the jet pump starts.

 With the resumption of depression, water is pumped through the tubing string, and the volume of the acid solution is pumped again, as in the first cycle.

 After several cycles, fluid flow from the bottomhole formation zone appears and there is no need to inject an acid solution. It is possible to continue the cycles of depression-repression until the well is brought to the maximum possible flow rate. After the well is developed, the depression-repression cycles are stopped, and the jet pump is operated in the “depression” mode, pumping fluid extracted from the well through the tubing string. At the same time, oil is extracted using a jet pump and the sub-packer zone is cleaned of the solution. In the case of well flowing, the jet pump is left at the bottom, and production is conducted through the tubing string and the annulus.

 PRI me R. A tubing string is lowered into a well with a depth of 2800 m using an UOS-1 brand jet pump and a packer. The layer at a depth of 2750-2760 m has a thickness of 10 m.

An acid solution is pumped through the tubing string into the bottomhole formation zone. then the packer is installed at a depth of 2730 m. The process is held for 2 hours. Water is pumped over the tubing string under pressure at the mouth of 240 MPa for 30 minutes. Due to the vacuum in the jet pump, part of the liquid from the sub-packer zone enters the super packer, creating a vacuum in the treated zone. 30 minutes after the start of water injection, an acid solution of the following composition is pumped into the tubing string: 12% aqueous hydrochloric acid solution - 10 m ³ , hydrofluoric acid - 0.5 m ³ , surfactant precoel - 30 l. The volume of acid solution is 10 m ³ per 1 linear meter of the formation of 1 m ³ solution. After the volume of the acid solution, water is again pumped through the tubing string. After the volume of the acid solution reaches the jet pump, the pumps are turned off and pumping is stopped along the tubing string. Produce technological exposure for 120 minutes The acid solution from the jet pump, the overpacker zone and the tubing string enters the underpacker zone. Pressure is restored in the under-packer zone and the acid solution penetrates into the bottomhole formation zone. Forcing and holding cycles are repeated 3 times. After that, the flow rate of the well was 30 tons per day for oil. After that, part of the produced oil is pumped through the tubing string, producing oil from the sub-packer zone using a jet pump and transporting it through the annulus of the well to the wellhead.

 The use of depression-repression operations without an acid solution and with an acid solution that was only poured into the sub-packer zone prior to the start of operations without use in cycles at this well did not lead to the appearance of fluid inflow from the bottomhole formation zone.

Claims (1)

 METHOD FOR PROCESSING THE BOTTOM AREA AND OIL PRODUCTION, which includes uncoupling of the well above the treated layer, filling the area of the treated layer with a solution for treating the bottom-hole formation zone, carrying out technological exposure, washing the zone of the treated layer, creating a rarefaction in the zone of the processed layer and the pumping area above along the annulus to the wellhead, pressure restoration in the area of the treated layer by fluid flow from the zone above m there are disconnections into the zone of the treated layer, repeating operations until oil flows into the well and oil is extracted from the zone of the processed layer through the zone above the place of separation in the annular space of the well, characterized in that before the pressure is restored to the well, a solution is added to treat the bottom-hole zone in volume , ensuring the filling of the zone above the place of the disconnection of the well, and the washing of the zone of the treated layer is combined with oil production.