RU2170344C1 - Process of exploitation of multipool oil deposit - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: pools are divided according to invention into two groups. Pools with highest penetrability are included into first group. Second group includes less penetrable pools. Oil is extracted from pools through production wells. Working fluid is pumped though injection wells. If penetrability of pools differs by factor of 10 and more, that is, when superpenetrable pool called supercollector exists in deposit injection wells sunk into pools of second group are shut down. Injection wells are sunk directly into supercollector and/or injection wells drilled into supercollector are used. Hydrodynamic direct connection of production wells to supercollector is liquidated and additional production wells are sunk above supercollector. Working fluid is pumped into supercollector through injection wells. Oil is extracted through production wells arranged above supercollector. EFFECT: enhanced output of oil. 1 cl

Description

 The invention relates to the oil industry and may find application in the development of a multilayer oil reservoir.

 A known method of developing a multilayer oil reservoir, including the selection of oil through production wells and pumping a working agent in a cyclic mode through injection wells (Surguchev ML Secondary and tertiary methods of increasing oil recovery. M .: Nedra, 1985, p. 143-149) .

 The known method allows you to select oil mainly from high permeability formations and very little from low permeability formations, as a result of which the oil recovery of the reservoir remains at a low level.

 Closest to the invention in technical essence is a method of developing a multilayer oil reservoir, which includes dividing the reservoir into two groups, estimating the average values of reservoir properties for each group, including in the first group of reservoirs with higher permeability and outrunning reserves, in the second group - less permeable formations with slow development of reserves, oil selection from formations through production wells, injection of a working agent in a cyclic mode through injection wells, for pumping of an agent that increases the hydrodynamic resistance of the formation to at least one injection and / or production well in the second half of the period of decrease in reservoir pressure, selection of the duration of the injection cycle of the working agent from the condition of ensuring the smallest difference in the averaged velocities of movement of the displacement fronts across the reservoirs of the first and the second group (RF patent N 2132939, class E 21 B 43/20, published. 1999 - prototype).

 The known method allows you to select from the deposits an increased amount of oil. However, the method works satisfactorily only with a very small difference in the properties of the groups of formations, when the permeabilities differ by no more than three times. The efficiency of the method is especially low when the permeability of the layers varies by 10 or more times, i.e. when the reservoir has an ultra-high permeability layer called a super reservoir. In this case, the oil recovery of the reservoir is small even with the application of all measures to level the permeability of formations.

 The invention solves the problem of increasing oil recovery deposits.

 The problem is solved in that in the method of developing a multilayer oil reservoir, comprising dividing the strata into two groups, including in the first group of strata with higher permeability, in the second group of less permeable strata, taking oil from the strata through production wells, injecting a working agent through injection wells wells, according to the invention, with a difference in the permeability of formations by 10 or more times, i.e. when there is a super-permeable formation called a super-reservoir in the reservoir, the injection wells drilled into the second group formations are stopped, the injection wells are drilled directly into the super-reservoir and / or the injection wells drilled into the super-reservoir are used, while the hydrodynamic connection of the production wells directly with the super-reservoir is eliminated and drilled additional production wells above the super collector, pump the working agent through injection wells into the super collector, select oil through production wells above the super collector. Additional production wells above the super-collector perform horizontal circular, and / or oval, and / or serpentine trajectories along the strata.

SUMMARY OF THE INVENTION
During the development of a heterogeneous multilayer oil reservoir, the leading displacement of oil from reservoirs with high permeability occurs. At the same time, oil in reservoirs with low permeability often remains partially undeveloped. This leads to a decrease in oil recovery deposits. The invention solves the problem of increasing oil recovery deposits. The problem is solved by the following set of operations.

 At the initial stage, the classical scheme of developing a deposit with horizontal oil displacement along the strata is implemented. When developing a multilayer oil reservoir, the reservoirs are divided into two groups. Estimate the average values of filtration-capacitive properties for each group. The first group includes formations with the highest permeability and leading reserves development - a super reservoir, the second group - less permeable formations with slow reserves development. Oil is taken from the reservoirs through production wells. The working agent is pumped through injection wells.

 At the next stage, a vertical oil displacement scheme is implemented. Stop injection wells drilled into formations of the second group. The injection wells are drilled directly into the supercollector and / or the injection wells drilled into the supercollector are used. In this case, the super collector is considered as a natural reservoir or as a huge horizontal well for collecting and distributing the working agent deposits in the volume. In order to avoid leaving the working agent through existing wells, the hydrodynamic connection of the producing wells directly with the super-collector is eliminated, for example, by setting up cement bridges in the wells. Drilling additional production wells over the super collector. To increase the area covered by the impact, additional production wells above the super-collector perform horizontal circular, and / or oval, and / or serpentine trajectories along the beds. When the working agent is pumped into a supercollector located in the lower part of the reservoir and oil is taken through production wells above the supercollector, a vertical oil displacement scheme is implemented from the bottom up. Oil recovery increases.

 An example of a specific implementation of the method.

An oil reservoir of the Talinskoye field is being developed with the following characteristics: the depth of the reservoir is 2700 m, the reservoir pressure is 25 MPa, the reservoir temperature is 101 ^o C, the thickness of the reservoir is 30 m, the depth of the super collector is 2728 m, the thickness of the super collector is 0.4 m, formation porosity 14.5%, super collector porosity 15.5%, formation permeability 60 • 10 ^-3 μm ² , super collector permeability 1 μm ² , oil viscosity 0.4 mPa • s, oil density 0.83 g / cm ³ .

 Separate the layers into two groups. The first group includes reservoirs with higher permeability and advanced development of reserves of the supercollector. The second group includes other less permeable formations with slow development of reserves.

 Oil is taken from the reservoirs through 120 production wells, the working agent is pumped in a cyclic mode through 57 injection wells. Stop 46 injection wells drilled into formations of the second group. They drill 8 injection wells directly into the supercollector and use 11 injection wells drilled into the supercollector. The working agent is pumped into the supercollector. Eliminate the hydrodynamic connection of 25 producing wells directly with the supercollector. An additional 18 production wells are drilled above the super collector. Additional production wells above the super collector perform horizontal circular, oval and serpentine trajectories along the strata. Oil is taken through production wells above the super collector. Oil recovery increases by 5 - 7%.

 The application of the proposed method will increase oil recovery deposits.

Claims (2)

 1. A method of developing a multilayer oil reservoir, comprising dividing the formations into two groups, including less permeable formations in the first group of formations, less permeable formations in the second group, extracting oil from the formations through production wells, pumping an operating agent through injection wells, characterized in that with a difference in the permeability of the reservoirs 10 or more times, i.e. when there is a super-permeable formation called a super-reservoir in the reservoir, the injection wells drilled into the second group formations are stopped, the injection wells are drilled directly into the super-reservoir and / or the injection wells drilled into the super-reservoir are used, while the hydrodynamic connection of the production wells directly with the super-reservoir is eliminated and drilled additional production wells above the super collector, pump the working agent through injection wells into the super collector, select oil through production wells above the super collector.  2. The method according to claim 1, characterized in that the additional production wells above the super-collector are horizontal by circular, and / or oval, and / or serpentine trajectories along the beds.