RU2121057C1 - Method for development of nonuniform oil formation - Google Patents

Abstract

FIELD: oil-producing industry; may be used in cyclic waterflooding of nonuniform oil formations. SUBSTANCE: method includes cyclic injection of mixture of polymer with water into injection wells and withdrawal of products from producing wells. The next cycle of injection of mixture of polymer and water is carried out after attainment of viscosity of mixture of polymer and water equalling to that in the previous cycle. EFFECT: higher efficiency.

Description

 The invention relates to the oil industry, in particular to methods for cyclic flooding of heterogeneous oil reservoirs.

 A known method of oil production using a curing system with adjustable viscosity, including the sequential injection of a polymer solution and a solution of a crosslinking agent into a highly permeable zone of the reservoir, in which, when the solutions are mixed, the polymer crosslinks to form a crosslinked polymer gel, which reduces the permeability of this zone (US patent N 4679625, publ. 87.07.14, t. 1080, N 2).

 The disadvantage of this method is the low oil recovery of the oil reservoir during its subsequent operation. A monolithic screen made of cross-linked polymer causes only a one-time redistribution of the filtration flows directly near the producing well and has practically no noticeable effect on increasing the coverage of the entire oil reservoir by water flooding.

 Closer in technical essence to the proposed method for the development of heterogeneous formations during cyclic water flooding, including the cyclic injection of a polymer solution into injection wells and the selection of products through production wells (see ed. St. N 1770551, E 21 B 43/20).

 The following disadvantage is inherent in this method: since the polymer solution is filtered through high-permeability layers, buried oil remains in the low-permeability layers, which subsequently cannot be extracted.

 The aim of the invention is to increase the efficiency of development of a heterogeneous oil reservoir.

 This goal is achieved by the fact that in the proposed method for developing a heterogeneous oil reservoir, which includes cyclic injection of a polymer-water mixture into injection wells and product selection through production wells, each subsequent injection cycle of the polymer-water mixture is carried out after the viscosity of the polymer-water mixture is pumped into previous cycle.

 The implementation of the method in the proposed sequence will allow the polymer mixture injected in each previous cycle, getting into the most permeable channels, structure there (gain viscosity) and block these channels. As a result, the injectivity profile (waterflooding front) is leveled with each cycle, and this leads to the displacement of oil from the low-permeability reservoir, that is, to increased oil recovery or, as a result, to increased development efficiency. The specified technique was not met in such a combination of features in the patent and scientific and technical literature, which gives us reason to believe that the invention has a high scientific and technical level.

 An example of a specific implementation for injection into the reservoir as the polymer was chosen cellulose ether.

The injection was carried out cyclically, while the cycle included the injection of cellulose ether (volume 150 - 200 m ³ ) lasting 12-14 hours, the injection of water into the reservoir with a volume of 30-50 m ³ at an injection time of 2 to 3 hours, stopping the injection and holding for 8 - 10 hours, this cycle ends.

 The amount of cellulose ether (from 10 to 50 tons) was determined based on the geological structure of the formation, while its total volume was 0.01 - 0.025 pore volumes. Empirically determined that enough 8 download cycles. For pumping, pump units of the AH-700 type were used.

 The first 3 injection cycles were carried out when the initial pressure regime was exceeded by 10-15%, the last cycle at 20-25%. It should be borne in mind that if the injection pressure exceeds the strength characteristics of the casing string, then work must be carried out with a protective packer.

 Cellulose ether was mixed with water in a ratio of 1-1.5 wt.% And immediately pumped into the reservoir, while the viscosity of the mixture was 3-50 mPa • s, with a subsequent increase from 25 to tens of thousands of MPa • s.

 According to preliminary calculations, the economic effect of the application of the method will be at least 10 million rubles. per year per well due to increased oil recovery.

Claims (1)

 A method for developing a heterogeneous oil reservoir, comprising cyclic injection of a polymer-water mixture into injection wells and product selection through production wells, characterized in that each subsequent cycle of pumping the polymer-water mixture is carried out after the viscosity of the polymer-water mixture injected in the previous cycle is set.