RU2165012C1 - Process of clearing of face zone of injection wells - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: invention deals with processes of clearing of face zone of oil pool in injection wells while exploiting low penetrable pools or pools whose operational indices deteriorated due to fouling of zone near well. Process includes selection of families of low intake injection wells with low penetrable face zones of collectors and of high intake injection wells with highly penetrable face zones of collectors in one unified hydrodynamic system. When cluster pump station operates gate valves of water guides are manipulated, pauses of one-three days with shut off high intake and opened low intake wells are kept. Pressure differential is created by adjustment of discard gate valve. High intake wells are opened and depression is formed in unified hydrodynamic system. Pressure is dropped across well-heads of low intake wells and fluid flows from low penetrable collectors into highly penetrable collectors through high intake wells. Then cluster pump station returns to initial mode of operation and parameters of its operation are recorded. Value of change of parameters is used to make out conclusion on efficiency of clearing of face zone. EFFECT: process provides for restoration of intake of pools. 1 dwg

Description

 The invention relates to the oil industry, and in particular to methods for cleaning the bottom-hole zone of an oil reservoir in injection wells operating low-permeability formations or worsening their performance due to contamination of the downhole zone.

 Known methods for processing the bottom-hole zone using physical and chemical effects, in which in addition to special chemical reagents, various additional downhole tools and equipment are used (R.S. Yaremiichuk, Yu.D. Kachmar "Opening of productive horizons and development of wells" .- Lviv: Higher School, 1982, 152 pp. and RF Patent N 2140531, E 21 B 43/22. Published October 10, 1999, Bulletin No. 30). These methods require large additional costs associated with the use of ORS or KRS teams and the installation of additional downhole equipment or surface equipment of the well.

 A known analogue of the invention. A method of influencing the bottom-hole zone of a well during its operation, including connecting a downhole electric centrifugal pump to an industrial power grid through a thyristor frequency converter. (RF patent N 2082879 E 21 B 43/25. Published on June 27, 1997 Bulletin N 18). In this method, depression is created by increasing the productivity of a borehole electric centrifugal pump by increasing the frequency of the electric current. This method is characterized in that the increase in the frequency of the electric current is carried out to a value that ensures a stable maximum flow rate of the well in the liquid, after which it is paused, and then the frequency of the electric current supplying the electric centrifugal pump is reduced to industrial value and the electric centrifugal pump is switched to power from the industrial mains. At the same time, the duration of the depressive effect on the formation is limited by the moment of disruption of the electric centrifugal pump.

 The closest analogue of the invention is the known method (see RU 2065030, 1996) for cleaning the bottom-hole zone of injection wells, including the allocation of groups of low-well wells with a low-permeable bottom-hole zone of reservoirs and highly-sensitive injection wells with a high-reception bottom-hole zone of reservoirs in a single hydrodynamic system, manipulating the water the pump at the cluster pump station and pause exposure.

 The disadvantage of this method is the low efficiency.

 The objective of the invention is to provide a highly effective method of restoring the injectivity of the reservoirs.

 The problem is solved in that in a method for cleaning the bottom-hole zone of injection wells, including the allocation of groups of low-pressure injection wells with a low-permeability bottom-hole zone of reservoirs and highly-sensitive injection wells with a high-permeability bottom-hole zone of collectors in a single hydrodynamic system, manipulating the shutter pump and the pump station pause, which according to the invention is carried out for one to three days with highly receptive closed open low-wells wells, create a pressure drop by adjusting the shut-off valve to fix the parameters of the well pump station and low-well numbers, open high-pressure wells and thereby create a depression in a single hydrodynamic system with a pressure drop at the mouth of low-pressure wells and liquid outflow from low-permeability reservoirs collectors through highly responsive wells, while returning to the initial mode of operation of the bush new pumping station with fixing the parameters of its operation and the magnitude of the changes in these parameters give a conclusion on the effectiveness of cleaning.

The drawing shows a schematic diagram of the cleaning of the bottomhole zone. 10-20 wells are selected at a cluster pumping station (SPS), with injectivity from 50 to 200 cubic meters. meters per day at wellhead pressure P _mouth = 100-150 atmospheres, and two / three wells with high injectivity of 500-1000 cubic meters. meters per day at R _mouth = 50 atmospheres.

Depending on the set mode, wells with low injectivity start up according to the consumption of the central nervous system for a full open valve. For example, the central nervous system 180x1422 with the flow rate Q _rasp = 3000 cubic meters. meters per day, the pressure on the outflow P _off = P _bg = 150-160 atmospheres. Wells with high injectivity are closed for this period of time. Having _{brought the pumping station} to the specified mode within one to three days, we make the adjustment by the shut-off valve, creating a slight pressure drop P _off = P _bg = 10 atmospheres and fixing the operating parameters of the unit P _off , R _bg , Q _flow , as well as the numbers of low-pressure wells N _well . Then we open the selected wells with high injectivity, thereby creating a depression of up to 100 atmospheres in the hydraulic system. Wellhead pressure on low-pressure injection wells drops to 50 atmospheres, and liquid flows from low-permeability reservoirs to high-permeability reservoirs through highly-sensitive wells.

 The stated principle can be used repeatedly according to various schemes, including the use of drainage tanks with constant pumping to reception, a high-pressure jumper between cluster pumping stations (SPS), insertion of additional bypass lines using pressure-reducing devices for receiving the unit, etc.

To verify the effectiveness of this measure, it is necessary to return to the original preset mode and fix the operating parameters of the unit P _off , P _bg , Q _flow , N _well . The magnitude of change P _OFF, P _BG, Q _FLOW issued conclusions about the efficacy of the purification method bottom zone.

 The use of the invention allows for the restoration of injectivity of the formations without underground and major overhaul of wells due to the outflow of fluid from low-receiving wells into highly-responsive when the pump is operating at the cluster pump station.

Claims (1)

 A method of cleaning the bottom-hole zone of injection wells, including the allocation of groups of low-pressure injection wells with a low-permeability bottom-hole zone of reservoirs and highly-sensitive injection wells with a high-permeability bottom-hole zone of reservoirs in a single hydrodynamic system, manipulating the valves of the water conduits when the pump is running, and the main pump pause is carried out for one to three days with closed highly-responsive wells and open low-well wells, create a pressure drop by adjusting the flow gate valve with fixing the parameters of the well pump station and the numbers of low-well wells, open highly-responsive wells and thereby create a depression in a single hydrodynamic system with a pressure drop at the mouth of the low-well wells and liquid outflow from the low-permeability reservoirs to the highly permeable reservoirs highly-responsive wells, while returning to the original mode of operation of the cluster pumping station uu with fixation parameters of its operation and the amount of change of these parameters give a conclusion about the effectiveness of treatment.