RU2211317C1 - Method of stimulation of oil pool with nonuniform reservoirs - Google Patents

Abstract

FIELD: oil producing industry, particularly, methods of increase of oil recovery from oil pools with nonumiform reservoirs. SUBSTANCE: method includes alternating injection of alkali fringes of clay suspension and polymer dispersion. Introduced additionally into alkali fringes are preliminarily foamed surfactants, and introduced additionally into polymer alkali dispersion is reagent KOMETA-R. Oil is withdrawn from producing well. Volume ratio of fringes, total volume of injected fringes and number of cycles are selected on basis of concrete geological situations on well and required radius of stimulation. For preparation of alkali solutions, use is made of sodium or potassium hydroxide, soda ash or edible soda, or their mixtures. EFFECT: provided limited injectivity of high-permeability interlayers, involved into development low-permeability interlayers, increased rate of development and oil recovery from formation. 1 tbl

Description

 The invention relates to the oil industry, in particular to methods for increasing oil recovery of deposits with heterogeneous reservoirs.

 A known method of influencing a reservoir with heterogeneous reservoirs by alternately pumping into an injection well an alkaline rim of a solution of polyacrylamide (PAA) and clay slurry and extracting oil through a producing well / 1 /.

 The disadvantage of this method is the low oil recovery due to the small volume of plugging sediment and its low strength properties.

 Closest to the invention in technical essence is a method of influencing a reservoir with heterogeneous reservoirs, including the selection of oil through a production well and alternating injection into the formation of alkaline rims of the dispersion of the cellulose derivative and clay slurry / 2 /.

 The known method allows you to align the injectivity profile of the injection well and increase oil recovery deposits. However, the effectiveness of the application of the method is low due to the small volumes of the resulting plugging sediment. This leads to premature breakthrough of water into the production well through a more permeable interlayers and a decrease in the current oil recovery.

 The invention solves the problem of increasing the volume of plugging sediment with an increase in its strength properties to increase the oil recovery of the reservoir.

 The problem is solved by the fact that in the method of influencing an oil reservoir with heterogeneous reservoirs, including the selection of oil through a production well and alternating injection of alkaline rims of the clay suspension and polymer dispersion into the formation, according to the invention surfactant surfactants are additionally introduced into the alkaline rims and pre-foamed while Comet-R reagent is additionally introduced into the alkaline polymer dispersion.

The essential features of the invention are:
1) oil extraction through a producing well;
2) alternating injection into the reservoir of alkaline rims of the polymer dispersion and clay suspension;
3) surfactant is additionally introduced into alkaline rims;
4) alkaline rims are pre-foamed;
5) the Comet-R reagent is additionally introduced into the alkaline-polymer dispersion.

 Signs 1-2 are common with the prototype, signs 3-5 are the salient features of the invention.

SUMMARY OF THE INVENTION
When developing oil deposits with heterogeneous reservoirs by flooding, premature breakthrough of injected water through high-permeability layers to oil producing wells occurs. This leads to a decrease in the efficiency of oil displacement by water and to a decrease in oil recovery. To prevent and combat water breakthrough in highly permeable layers, work is carried out to align the injectivity profile of injection wells. However, the efficiency from the work is low due to the small volumes of plugging sludge obtained, which leads to a decrease in the current oil recovery.

 The invention solves the problem of increasing the efficiency of alignment of injectivity profiles and increasing oil recovery by increasing the volume of plugging sediment with an increase in its strength properties.

 The problem is solved by the following set of operations.

 Alternating injections of alkaline rims of the clay suspension and polymer dispersion are carried out on the deposits, while surfactants are additionally introduced into the alkaline rims and they are pre-foamed, and the Comet-R reagent is additionally introduced into the alkaline-polymer dispersion. Oil is being extracted through a production well.

 The sequential injection of alkaline rims of the clay suspension and polymer dispersion is carried out in alternating cycles in order to increase the number of mixing zones and, accordingly, the volume of the plugging mass resulting from the interaction of the polymer and clay in an alkaline medium.

 The volumetric ratio of the rims, the total volume of injected rims and the number of cycles are selected based on the specific geological situation at the well and the required processing radius.

 For the preparation of alkaline solutions using sodium or potassium hydroxide, soda ash or baking soda or mixtures thereof.

 As the polymers can be used various brands of Kamtsela (a water-soluble polymer, fine-grained granular or powdery from white to cream, produced by the domestic industry in accordance with TU 2231-001-50277563-2000) or various brands of imported PAA (DKS-ORP-F-40NT , RDA-1020, RDA-1004, CS-6, ACCOTROL, etc.).

 The reagent "Comet-R" (TU 2458-019-25690359-99) is a copolymer of methacrylic acid and sodium salt of methacrylic acid, obtained by solution copolymerization.

 As surfactants can be used various anionic or nonionic surfactant foaming agents or mixtures thereof (Sulfonol, OP-10, neonol, neftenol, etc.).

 The alkaline medium promotes the polymerisation of the polymer and increases its resistance to degradation under formation conditions. In this case, clay particles swell as much as possible, their plasticity and mobility increase, and polymer adsorption on clay powder increases, which contributes to the appearance of hydrogen bonds on the particle surface and hardening of the composition in the formation. The table shows the results of laboratory studies to determine the volume of sediment and static shear stress (SSS), which characterizes the strength properties of the system.

 As can be seen from the table, the proposed system in comparison with the prototype are characterized by large volumes of sediment and a large value of SNA. The increased strength characteristics of the resulting system allow a method of influencing the reservoir through the producing well, because significantly reduces the likelihood of moving the system back into the well when oil is taken through the production well. Examples of specific performance.

Example 1. By flooding, an oil reservoir is developed with the following characteristics: effective formation thickness - 10 m, porosity - 0.18, absolute permeability - 0.150 μm, formation temperature - 85 ^o C, initial reservoir pressure - 26.0 MPa, viscosity and density oil in the reservoir, respectively - 0.8 MPa-s and 0.765 g / cm, water viscosity - 0.35 MPa-s, initial oil and water saturation, respectively, 0.6 and 0.4, saturation pressure - 76.5 MPa, the gas factor is 75 nm ³ / m ³ , the ratio of the permeability of the high permeability and low permeability layers is 2.8. A breakthrough of injected water into a production well occurred in a highly permeable interlayer, and water cut reached 95%.

 An alternating injection through the injection well of alkaline rims of the clay suspension and Kamtsel dispersion, into which surfactants (Sulfonol) was previously introduced and which were previously foamed, is carried out at the deposit site. Moreover, the Comet-R reagent was introduced into the Kamtsel dispersion before foaming. Oil is being extracted through a production well.

 Example 2. An oil reservoir is developed, as in Example 1. At the reservoir site, alternating injection of the alkaline rims of the clay slurry and dispersion of PAA (ACCOTROL) through which a surfactant (OP-10) was previously introduced and pre-foamed is carried out through the production well. Moreover, the comet-R reagent was introduced into the PAA dispersion before foaming. Then, oil is collected through the production well.

 Example 3. An oil deposit is developed, as in Example 1. On the deposit site, alternating injection of alkaline rims of the clay suspension and dispersion of PAA (DKS-ORP-F-40NT) is carried out, into which a mixture of surfactants (OP-10 and Sulfonol) was previously introduced and which have been pre-foamed. Moreover, the comet-R reagent was introduced into the PAA dispersion before foaming. Then, oil is collected through the production well.

 The application of the proposed method of influencing a reservoir with heterogeneous reservoirs makes it possible to involve low-permeability layers in the active development by increasing the plugging properties of the composition, to increase the development rate and oil recovery of the reservoir.

Sources of information
1. Patent of the Russian Federation 2044872, E 21 B 43/22, 1995

 2. Patent of the Russian Federation 2184218, Е 21 В 43/22, 2001

Claims (1)

 A method of influencing an oil reservoir with heterogeneous reservoirs, including the selection of oil through a production well and alternating injection into the formation of alkaline rims of a clay suspension and a polymer dispersion, characterized in that surfactants are added to alkaline rims and pre-foamed, while an alkaline polymer dispersion is additionally introduced with the Comet-R reagent.

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