RU2011807C1 - Method for petroleum deposit working - Google Patents

Abstract

FIELD: petroleum industry. SUBSTANCE: aqueous solution of carboxymethylcellulose is pumped into petroleum stratum. The process is followed by pumping 12-24% solution of hydrochloric acid and 5-15% aqueous solution of non-ionogenic surface active substance into it. Summary volume of these solutions is 60-250 m³/m. EFFECT: improves efficiency of the method. 2 tbl

Description

 The invention relates to the oil industry, and in particular to methods for developing oil deposits.

 A known method of developing an oil reservoir by water flooding, including the selection of oil by producing wells and pumping water into injection wells.

 The disadvantage of this method is the low values of exposure coverage and oil displacement coefficient, as a result of which a significant part of the reserves is not recoverable.

 A known method for the development of oil deposits by injecting water into injection wells with the addition of surface-active substances (surfactants).

 The disadvantages of this method are the high value of adsorption of surfactants on the rock, a significant sensitivity to water quality and a low magnitude of the increase in oil recovery.

 The closest technical solution to the proposed one, taken as a prototype, is a method of developing an oil reservoir, which includes injecting an aqueous solution of carboxymethyl cellulose into the formation and taking oil through production wells.

 When oil is displaced from the reservoir by an aqueous polymer solution, even at low concentrations, an increase in waterflood coverage is achieved by increasing the viscosity of the water and reducing its mobility.

 The disadvantage of this method is the low coefficient of water flooding and oil recovery, due to the low pace of development of the oil reservoir due to a decrease in water injection caused by an increase in the apparent viscosity of the system in the bottom-hole zones.

 The aim of the invention is to increase the coefficient of oil displacement.

This goal is achieved by the fact that in the known method, which includes injecting an aqueous solution of carboxymethyl cellulose into a formation and oil extraction through production wells, after injecting an aqueous solution of carboxymethyl cellulose, the fringes of a 12-24% aqueous hydrochloric acid solution and 5-15% an aqueous solution of a nonionic surfactant with a total volume of 60-250 m ³ / m of reservoir power.

 After injection of the rim of hydrochloric acid, a polymer-acid system is formed, which, due to its chemical and rheological properties, increases the permeability of low-permeability zones, and also leads to the diffusion of oil from low-permeability zones to highly permeable ones due to the electroosmotic phenomenon. Subsequent injection of nonionic surfactants reaches the washing out of residual oil. At the same time, the resulting hydrochloric acid surfactant solutions due to the polymer have improved rheological properties, which allows to increase the injectivity of wells, the degree of impact of injected water and to increase oil recovery.

 The method is as follows.

 The deposit is drilled with producing and injection wells, for example, according to the areal scheme. After drilling the sections into the injection wells, water is injected, then the rims of the aqueous carboxymethyl cellulose solution, the aqueous acid solution and the aqueous nonionic surfactant solution. The number and volume of injected polymer rims, acids and nonionic surfactants is determined during technical and economic calculations, they depend on the properties of the reservoir oil (viscosity) and oil-saturated rock: permeability, heterogeneity, percentage of clay, etc. After the injection is stopped, the reagents proceed water flooding.

 The effectiveness of the proposed method was studied in laboratory conditions on a model of the Samotlor field reservoir.

 PRI me R. The experiment was carried out on a reservoir model in relation to the conditions of the Samotlor field.

 Determination of the displacing properties of the working compositions of rims according to the proposed method is carried out on linear models of a layered heterogeneous formation in accordance with the methodology for determining the coefficients of oil displacement by water in laboratory conditions according to OST 39-195-86.

The permeability of the model was 0.267 μm ² , porosity 24.1%. The experiments were conducted at ⁷⁰ ° C oil viscosity at this temperature was 1.2 mPa˙s.

 In water flooding experiments, 4 pore volumes of water were filtered through a model.

 In experiments with the injection of rims of thickened water, 0.5 pore volumes were preliminarily filtered through the model, then the rim of the reagent with a volume of 0.3 pore volumes, and then 3 more pore volumes of water were filtered through the model. The experimental results are given in table. 1.

 From the data given in table. 1, it can be seen that the method of developing an oil deposit, based on the injection of polymer rims, acids, significantly increases the oil displacement coefficient.

 To verify the technological effectiveness of the proposed method, a number of field experiments were carried out, the results of which are given in table. 2.

When implementing the method, based on the requirement of directly affecting the formation, going beyond the limits of the depression funnel, the optimal injection volume of acid rims and surfactants should be considered 60-250 m ³ depending on the thickness of the formation, its porosity, content, and acid-soluble minerals.

According to the results of laboratory studies confirmed by a field experiment, optimal efficiency is achieved when acid rims and surfactants are injected after polymer in the following proportions,%: 1. Hydrochloric acid 12-24 2. Water Else
1. Surfactant 5-15 2. Water Else
In order to determine the most effective volumes of acid and surfactant injection, a number of laboratory experiments were carried out using concentration-optimal compositions.

The results of laboratory experiments are given in table. 3. Uploaded volumes in the table are given in terms of fishing conditions (in m ³ ).

According to the research results, it can be concluded that the most optimal is the injection of acid and surfactant solutions with a total volume of 60-250 m ³ .

To increase the coverage of the formation by the action of acid rims and surfactants, and to replace oil from water-washed zones, a polymer rim of carboxymethyl cellulose with a concentration of 0.5-2% and a volume of 100-250 m ^{3 is} pre-pumped.

 The application of the proposed method at the Lasieganskoye field allows to increase oil recovery by 3-10% compared with the prototype with equal injection volumes.

Claims (1)

METHOD FOR DEVELOPING AN OIL DEPOSIT, which includes injecting an aqueous solution of carboxymethyl cellulose into the formation and taking oil through production wells, characterized in that, in order to increase the oil displacement rate, rims of a 12-24% aqueous hydrochloric acid solution are pumped into the formation after injecting an aqueous solution of carboxymethyl cellulose and a 5-15% aqueous solution of a nonionic surfactant with a total volume of 60-250 m ³ / m, depending on the thickness of the formation.

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