RU2213210C1 - Method of development of formation with difficult to recover oil reserves - Google Patents

Abstract

FIELD: oil producing industry; applicable in development of formations with oil reserves difficult to recover, with use of vacuum-wave stimulation. SUBSTANCE: method includes well washing; filling of well producing formation interval with fluid for treatment of bottomhole; allowing to stand for process completion; vacuum-wave stimulation of formation with simultaneous pumping-out of reaction products. At initial period of vacuum-wave stimulation, reduced level of fluid column in well is compensated with fluid for treatment of bottomhole zone supplied to well through annular space. In this case, bottomhole pressure is maintained at level of formation pressure. Then, supply of fluid to annular space for treatment of bottomhole zone is discontinued. Supplied to annular space through wellhead is withdrawn formation product. After increase of well production rate, vacuum-wave stimulation is discontinued and formation fluid is withdrawn. In this case, maximum volume of vacuum cavity in vacuum-wave stimulation is selected with consideration of technical potentialities of pumping unit and safety margin of sucker-rod strings. EFFECT: higher efficiency of formation stimulation due to maintenance of bottomhole pressure at level of formation pressure in process of vacuum-wave stimulation. 2 cl, 1 dwg, 1 ex

Description

 The invention relates to the oil industry and can be used in the development of formations with hard-to-recover oil reserves using vacuum-wave exposure.

 A known method of influencing a reservoir, including the selection of oil and conducting multiple treatments of the bottomhole zone with the creation of depression at the end of each cycle of oil selection (vacuum wave exposure) [A. A. Popov. Impact effects on the bottomhole zone of wells. M., "Nedra", 1990, p. 108, 109].

 The disadvantage of this method is the low efficiency, which is associated with the absence of chemical effects on the reservoir.

 Closest to the invention, the technical essence is a method of impacting a reservoir, including flushing the well with a solvent of asphalt-tar and paraffin hydrate deposits with a frequency of filling it into the bottomhole zone of the well, conducting a pulse-vacuum (vacuum-wave) action with simultaneous pumping of reaction products, filling the productive interval the formation of the well with a solution for processing the bottom-hole zone of the well and forcing it with oil into the bottom-hole zone of the well, conducting a technolog exposure, vacuum-wave exposure while pumping out reaction products, repeating operations, after repeating operations after each filling of the interval of the producing formation with a solution for treating the bottom-hole zone of the well, forcing it with oil into the bottom-hole zone of the well, when filling the interval of the producing formation with a subsequent portion of the solution for processing the bottom-hole zone of the well, an increase in its volume by 1.15-1.25 compared to the volume of the previous portion of the solution for processing Ki bottomhole zone of the well [RF Patent 2117145, class. E 21 B 43/25, published. 08/08/10 - prototype].

 The disadvantage of this method is that when treating a formation with viscous oils, complicated by contaminations of the prefilter part of the formation, the pressure created under the plunger is not enough for a strong vacuum-wave effect without maintaining bottomhole pressure at the reservoir level.

 The objective of the present invention is to increase the efficiency of the formation by maintaining bottomhole pressure at the level of the reservoir during the vacuum-wave exposure.

 The problem is solved in that in a method for developing a formation with hard-to-recover oil reserves, including flushing the well, filling the interval of the productive formation of the well with liquid to treat the bottom-hole zone of the well, technological exposure and vacuum-wave exposure while pumping out the reaction products, according to the invention, in the initial period, vacuum -wave exposure, the reduced level of the liquid column in the well is compensated by the liquid for processing the bottom-hole zone of the well supplied to the well well, through the annulus, while maintaining bottomhole pressure at the reservoir level, then the flow of liquid into the annulus to process the bottomhole zone of the well is stopped, and the selected production of the formation is directed through the mouth of the annulus, after increasing the flow rate of the well, the vacuum-wave action ceases and proceeds to the selection of formation fluid, the maximum volume of the vacuum cavity under vacuum-wave action is chosen taking into account the technical capabilities of the rocking machine and taking into account the margin of safety of the rod string, and the reciprocating motion under vacuum-wave exposure choose at least 3.5 cycles / min.

 Upon reaching a stable inflow of selected production of the formation, the intensity of the reciprocating motion under vacuum-wave exposure is increased to 5 cycles / min.

The features of the invention are:
1) flushing the well;
2) filling the interval of the productive formation of the well with liquid for processing the bottom-hole zone of the well;
3) technological exposure;
4) conducting a vacuum-wave exposure with simultaneous pumping of reaction products;
5) in the initial period of the vacuum-wave exposure, compensation of the reduced level of the liquid column in the well with liquid to treat the bottom-hole zone of the well, supplied to the well by the annulus while maintaining the bottomhole pressure at the reservoir level,
6) the cessation of fluid supply in the annulus for processing the bottom-hole zone of the well;
7) the direction in the annulus through the wellhead of the selected production of the formation;
8) after increasing the flow rate of the well, the termination of the vacuum-wave action and the transition to the selection of formation fluid;
9) the choice of the maximum volume of the vacuum cavity under vacuum-wave exposure, taking into account the technical capabilities of the rocking machine and taking into account the margin of safety of the rod string;
10) the choice of the intensity of the reciprocating motion under vacuum-wave exposure choose at least 3.5 cycles / min;
11) upon reaching a stable influx of selected production of the reservoir, an increase in the intensity of the reciprocating motion under vacuum-wave exposure up to 5 cycles / min.

 Signs 1 to 4 are common with the prototype, signs 5-10 are the salient features of the invention, sign 11 is a particular feature of the invention.

SUMMARY OF THE INVENTION
When developing an oil reservoir with hard-to-recover oil reserves, mudding of the bottom-hole zones of producing wells occurs. In this case, the production rate of production wells is reduced, oil recovery is reduced. The objective of the present invention is to increase the efficiency of processing the reservoir by maintaining bottomhole pressure at the reservoir level during the vacuum-wave exposure. The problem is solved as follows.

 When developing a reservoir with hard-to-recover oil reserves, at least one production well is stopped.

 To implement the method using the device shown in the drawing.

 The device is made on the basis of a tubular pump with a thickened cylinder wall 1 with windows 2 in the middle part, with a muffled end 3, lowered onto the tubing string 4, and a movable plunger 5 with a discharge valve 6 and outlet openings 7. Moreover, the maximum vacuum volume cavity, i.e. the maximum cylinder volume is selected taking into account the technical capabilities of the rocking machine 8, the margin of safety of the rod string 9 and the degree of contamination of the bottom-hole zone of the interval of the developed formation 10. The wellhead 11 is equipped with pipelines 12 and valves 13, 14 and 15.

 First, the cylinder 1 is lowered into the well 11 on the tubing string 4 into the zone of the productive formation 10, it is washed and the interval of the formation 10 is filled with liquid to treat the bottomhole zone of the well. As a liquid for processing the bottom-hole zone of a well, a 24-25% aqueous solution of hydrochloric acid is used, diesel fuel is mixed with kerosene in a ratio of 1: 1, etc. Depending on the contamination of the bottom-hole zone of the formation, well 11 is left at rest 0.5- 2 days for the reaction of liquids with contaminants. Then, on the column of rods 9, the plunger 5 is lowered into the bore 11 until it stops in the plug 3 of cylinder 1. The column of rods 9 is connected to the rocking machine 8 and put it into operation with the number of cycles of at least 3.5 per minute.

 During the course of the column string 9 and the associated plunger 5 down, the pressure valve 6 opens, the cavity of the plunger 5 is filled through the valve 6 and the outlet 7 with well fluid, while the windows 2 of the cylinder 1 are blocked by the body of the plunger 5. During the course of the column string 9 and him plunger 5 up, the discharge valve 6 is closed and the well fluid along the string of tubing 4 is fed to the discharge. In this case, the valve 13 is open, the valves 14 and 15 are closed. By the time the windows 2 are opened under the plunger 5, a vacuum occurs, i.e. a vacuum is created. When opening the windows 2, the borehole fluid instantly enters and fills the cavity of the cylinder 1 under the plunger 5, in which a sharp vacuum-wave effect is created on the developed formation 10, accompanied by a discharge in the bottomhole zone. Under the influence of deep depression, first, peeling of contaminants on the walls of the borehole 11 occurs, and then their removal from the pores of the formation.

 In the first 3-4 hours of operation of the pumping unit 8, selected products of the formation with contaminants are fed to the discharge through the pipeline 12 and the open valve 13 and sent to the oil collection point via the transportation system. Moreover, as the downhole fluid is taken, the level of its column in the well decreases, therefore, the bottomhole pressure also decreases, which negatively affects the effect of the vacuum-wave effect. Therefore, to maintain bottomhole pressure at the reservoir level from the wellhead 11 through the pipeline 12 and the open valve 15 in the annulus, fluid is added to treat the bottomhole zone of the well to compensate for the decreasing level of the wellbore fluid column. In this case, the valve 14 is left closed.

 After 3-4 hours of operation of the rocking machine 8, the bottomhole pressure is maintained at the reservoir level by recirculating the selected well fluid through the annulus with closed gate valves 13 and 15 and open gate 14, which makes it possible to obtain the maximum effect of the vacuum-wave action on the formation.

 When a stable influx of selected production of the formation is achieved in order to increase the effect of the vacuum-wave effect due to the imposition of waves, the number of cycles is increased to 5.

 At the end of the work to increase the flow rate of the well, the device is raised to the surface, the tube pump is lowered into the well and further operation is carried out in the normal mode.

Concrete example
An oil reservoir is being developed with the following characteristics: porosity -11.9%, permeability - 0.029 μm ² , oil saturation - 61.1%, absolute mark of water-oil contact - 1500 m, average oil-saturated thickness - 4 m, reservoir pressure beyond the circuit - 17.5 MPa, reservoir pressure in the circuit - 15 MPa, reservoir temperature - 25 ^o C, reservoir oil parameters: density - 930 kg / m ³ , viscosity - 46 MPa • s, saturation pressure - 1.8 MPa, gas content - 15.2 m ³ / t, sulfur content - 3.64%.

 Stop one production well with a current flow rate of less than 0.5 t / day. The well is assembled according to the drawing. The maximum volume of the vacuum cavity under vacuum-wave action is chosen taking into account the technical capabilities of the pumping unit and taking into account the safety factor of the rod string. Based on this, cylinder 1 is used with a length of 4 m, plunger 5 is used with a length of 3 m. A tubular pump of type 175 TNMTA-11-9,2-4 is used as a device after dismantling its extension cord and suction valve and making 2 windows in the wall of its cylinder on one level in the middle. The intensity of the reciprocating motion under vacuum-wave exposure is chosen equal to 3.5 cycles / min. Diesel fuel mixed with kerosene in a ratio of 1: 1 is used as a liquid for processing the bottom-hole zone of a well.

 The well is washed, the interval of the productive formation of the well is filled with liquid for processing the bottom-hole zone of the well, technological exposure is carried out for 24 hours and a vacuum-wave effect is carried out while the reaction products are pumped out. In the initial period, during the first 4 hours of the vacuum-wave action, the reduced level of the liquid column in the well is compensated by liquid to treat the bottom-hole zone of the well supplied to the well by the annulus while maintaining the bottomhole pressure at the reservoir level. Then, the liquid supply to the annulus for processing the bottomhole zone of the well is stopped, and the selected formation products are sent through the wellhead to the annulus. After increasing the flow rate of the well up to 5 t / day, the vacuum-wave action is stopped and proceed to the selection of formation fluid.

 The inventive method has been tested in wells 3722, 3414, 14962 of JSC Sheshmaoil. The results are positive. So, the flow rate of well 3722 due to the use of the method has increased 3.3 times, well 3414 is currently operating with a flow rate of 5.6 tons / day, while the flow rate of neighboring untreated wells is only 2.1 tons / day, and for the well 14962 a 5.4-fold increase in flow rate was noted with a decrease in water cut of 10%.

 The application of the proposed method will increase the production rate of wells and injectivity of injection wells.

Claims (2)

 1. A method of developing a reservoir with hard-to-recover oil reserves, including flushing the well, filling the interval of the producing wellbore with liquid to treat the bottom-hole zone of the well, technological exposure and conducting vacuum-wave exposure with simultaneous pumping of reaction products, characterized in that in the initial period of the vacuum-wave the impact of the reduced level of the liquid column in the well is compensated by the liquid for processing the bottom-hole zone of the well supplied to the well through the annulus with support downhole pressure at the reservoir level, then stop supplying liquid to the annulus for processing the bottomhole zone of the well, and the selected production of the formation is directed through the wellhead after increasing the flow rate of the well, the vacuum-wave effect is stopped and the formation fluid is withdrawn, with the maximum volume the vacuum cavity under vacuum-wave exposure is chosen taking into account the technical capabilities of the rocking machine and taking into account the margin of safety of the rod string, and the intensity of the reciprocating nogo movement when vacuum wave action selected is not less than 3.5 cycle / min.  2. The method according to p. 1, characterized in that upon reaching a stable influx of selected production of the formation, the intensity of the reciprocating motion under vacuum-wave exposure is increased to 5 cycles / min.