RU2065927C1 - Method of developing oil pool - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: on a nonuniform oil pool area, hydrodynamically linked sections are chosen. Productive wells operated on the chosen area are stopped, and formation pressure is increased to provide interaction between the wells. Then productive wells are restarted and operated in the flowing mode. Produced oil is transferred into the drill string-borehole annulus of satellite well and pumped out over the tubing string into delivery oil collector. EFFECT: increased oil production.

Description

 The invention relates to the oil industry and can be used in the development of heterogeneous oil deposits.

A known method for the development of oil deposits by taking oil through production wells [1]
The disadvantage of this method is the low oil recovery due to the rapid decrease in reservoir pressure.

Closest to the proposed invention in technical essence is a method of developing an oil reservoir, including the selection of oil through production wells and the injection of a working agent through injection wells [2]
The disadvantage of this method is the low oil recovery due to the uneven coverage of the formation by the impact.

 The aim of the invention is to increase oil recovery.

 This is achieved by the fact that in the method of developing an oil reservoir, which includes taking oil through production wells and injecting a working agent through injection wells, development areas having hydrodynamic connection within them are allocated to the deposits, then production wells are stopped at each development section and the reservoir pressure is increased until interaction between injection and producing wells is ensured, then production wells are put into operation and they are operated in a gushing mode, I set t is the volume of the working agent injected, ensuring the flowing mode of production wells, while the collection well is additionally placed at the development site and oil from flowing production wells is sent to the annulus of the collection well, from where it is pumped through the tubing string to the pressure head oil reservoir.

 The essential features of the present invention are: selection of oil through production wells; injection of a working agent through injection wells; allocation of deposits of development sites having hydrodynamic connection within the development site; stopping production wells in the reservoir area; increase in reservoir pressure to ensure interaction between injection and producing wells; launch of production wells; operation of mining in flowing mode; setting the volume in the injection of the working agent, providing the mode of flowing wells; direction of oil from flowing wells to an additional well-collector; the direction of oil into the annulus of an additional well-collector; pumping oil through a tubing string of an additional collection well; pumping oil into a pressure head oil reservoir.

 When developing an oil reservoir with intermittent low-permeability formations at a late stage of development, isolated oil-saturated areas with practically undeveloped reserves remain in the reservoir. Due to the environment of such areas with non-reservoir zones, the results of the development of other areas of the reservoir do not affect them. Oil water cut in these areas is zero, and reservoir pressure is equal to the initial reservoir division. Under these conditions, the allocated development site should be considered as a small independent oil deposit and conditionally assumed that its development begins from the first stage. Since the permeability of the reservoir is low, the production rates of production wells are small. In addition, even if there is a hydrodynamic connection within the selected development area, due to the low permeability of the reservoir, not all wells in the area can interact. To ensure hydrodynamic communication between the wells, the pressure in the injection zone is increased when the production wells are stopped or part of the production wells are stopped, with which the injection well interacts. After the impact of the injection well is manifested with all producing wells, it is believed that all the wells in the area interact. Stopped production wells are launched into operation. Moreover, the pressure on the site has increased to such an extent that the wells begin to gush.

 Since production wells operate with low flow rates, it is irrational to put pumping equipment with high productivity on each production well. Therefore, oil is collected from several wells, gravity is directed to the annulus of an additional well-collector, and oil is pumped out of it through a tubing string using high-performance pumping equipment into a pressure head oil collector. This saves the cost of pumping oil and reduces the amount of pumping equipment used.

 To maintain the flowing mode, such a volume of the working agent is pumped through the injection well that provides the necessary reservoir pressure. Injection volumes and reservoir pressure are controlled by controlling the flow rates of production wells.

 As a working agent for injection through an injection well, associated formation water is used that is most compatible with produced formation fluids.

Example. They develop an oil deposit measuring 25 • 12 km. The deposit has the following characteristics: the depth of the reservoir 1750 m; initial reservoir pressure of 17.0 MPa; initial reservoir temperature 39 ^o C; permeability of 100 MD; the density of oil in reservoir conditions 0.86 g / cm ³ ; oil viscosity in reservoir conditions 3.7 MPa • s. A development area of 2x1.5 km in size is identified in the deposits, having a hydrodynamic connection within the area and limited to a non-reservoir zone. At the development site, 4 production wells are placed and oil is taken to reduce reservoir pressure to 13.5 MPa. A working agent (associated produced water) is pumped through an injection well in a volume of 200 m ³ / day and oil is taken through production wells with flow rates of 2; 2.5; 3 and 4 t / day. The reaction of producing wells is determined. The interaction of the three producing wells with the injection well is established. To ensure hydrodynamic communication with the fourth production well, all 4 production wells are stopped and the working agent is pumped through the injection well in a volume of 300 m ³ / day until formation pressure increases in the fourth production well. In this case, the reservoir pressure in the zone of the injection well is increased to 20 MPa. 4 producing wells are put into operation and exploited in gushing mode. The flow rate of wells is 6, 8, 9 and 12 tons / day of anhydrous oil. At the same time, the volume of injection of the working agent is reduced to 200 m / day. Such an injection volume provides a flowing regime for producing wells with newly established flow rates. One of the exploration wells at the development site, previously mothballed, is equipped with a tubing string and pumping equipment and is used as a collection well. The annulus of the collection well is connected by pipelines to flow lines of 4 production wells. Oil from production wells under the influence of reservoir pressure is pumped into the annulus of the collection well. Oil is pumped out of the collection well through a column of pumping pipes and sent to a pressure head oil collector.

 The productivity of the pumping equipment of the collection well is 35 tons / day, i.e. equal to the sum of production rates of 4 producing wells.

 The application of the proposed method allows to increase oil recovery by 3%

Claims (1)

 A method of developing an oil field, including oil extraction through production wells and pumping a working agent through injection wells, characterized in that development areas having hydrodynamic connections within them are separated into deposits, then production wells are stopped at each development section and the reservoir pressure is increased to ensure interactions between injection and production wells, then production wells are put into operation and they are operated in flowing mode, the volume is set We working fluid injection providing production wells spouting mode and the further development in the area positioned borehole and collecting oil from production wells gushing directed into the annulus of the collecting well, where the column of tubing it is pumped into the pressure oil gathering manifold.