RU2217583C1 - Process of development of flooded oil deposit - Google Patents

Abstract

FIELD: oil production, extraction of oil from inhomogeneous formations at latest stage of development of oil deposit. SUBSTANCE: process of development of flooded oil deposit includes successive pumping of fringes of aqueous solution of reagent containing sodium salts of organic acids and aqueous solution of salt of polyvalent metal into formation through injection well. Saponified wood resin with 0.5-1.0 proportion of saponified wood resin and salt of polyvalent metal with water buffer between fringes is utilized in the capacity of above-mentioned reagent. Water soluble salt of aluminum, calcium, iron, chromium is employed as mentioned salt. EFFECT: increased oil output of formation due to equalization of permeable inhomogeneity of formations and intensification of oil-saturated formations. 1 cl, 3 tbl

Description

The invention relates to the oil industry, in particular, to methods for producing oil from heterogeneous formations at a late stage of oil field development.

A known method of isolating the influx of formation water, including the sequential injection into the formation of aqueous solutions of calcium chloride and sodium sulfate with a reagent ratio of 1: 1 [1].

The disadvantage of this method is the low efficiency of highly watered permeable layers due to the small volume of sediment formed in the washed zones.

A known method of limiting the influx of formation water, which consists in the sequential injection of aluminum salt of sulfuric acid and calcium chloride, interacting with the formation in the pore space of an insoluble precipitate [2].

The closest analogue is a method for developing an irrigated oil reservoir, which involves sequentially injecting into the formation through an injection well an aqueous solution of an alkaline runoff producing caprolactam containing sodium salts of organic acids and an aqueous solution of a salt of a polyvalent metal (calcium) with a ratio of 1: 0.1-0 , 5 [3].

The objective of the invention is to increase oil recovery, equalization of permeability heterogeneity of the reservoirs by increasing the volume of sediment in water-washed zones and the intensification of oil-saturated zones.

This object is achieved by the fact that in the method of developing an irrigated oil deposit, which involves sequentially injecting into the formation through an injection well, the rims of an aqueous solution of a reagent containing sodium salts of organic acids and an aqueous solution of a salt of a polyvalent metal, the saponified ODS wood resin is used as said reagent in the ratio ODS and polyvalent metal salts of 0.5-1: 1 with a buffer of water between the rims. Moreover, a water-soluble salt of aluminum, calcium, iron, magnesium, chromium is used as the indicated salt.

Saponified wood resin (ODS) is a product of forest chemical production. According to the technical conditions (TU 2453-013-10644738-00), ODS is a dark colored mobile liquid with a mass fraction of the main substance of 50% and a pH of 11-12.

The main component of ODS is a mixture of sodium salts of organic acids. During the interaction of salts of polyvalent metals with ODS, a polymer organic precipitate forms, which is fixed by the gel-like structure of aluminum hydroxide.

The essence of the invention is as follows. The initially injected solution of saponified wood resin is fixed on the surface of the rock due to partial adsorption. Subsequent injection of a solution of a salt of a polyvalent metal leads to the precipitation of insoluble salts of fatty and resin acids in the rock. At the same time, in the washed zones, a precipitate of polyvalent metal hydroxide forms, which is fixed on the surface of the rock.

In addition, solutions of saponified wood resin reduce the surface tension at the border with hydrocarbons, which contributes to the extrusion of residual oil.

The effectiveness of the proposed and known methods was evaluated in laboratory conditions by the amount of sludge obtained by the interaction of aqueous solutions of polyvalent metal salts and saponified wood resin, filtration characteristics, residual resistance factor, increase in oil displacement coefficient and surface tension at the border of aqueous solutions of the used reagents and kerosene.

The sludge-forming ability of the proposed compositions was evaluated as follows. Solutions of appropriate concentrations of polyvalent metals and saponified wood resin are mixed in equal volumes and thermostated under formation conditions for 2-3 hours. After that, determine the volume of sediment and the mass of dry precipitate, for which the solution is filtered through a paper filter and dried. The results are shown in table. 1.

From the table. 1 shows that the amount of sediment obtained by the proposed method is 10-68% more.

Interfacial tension is determined according to the standard method by the method of tearing the ring in accordance with GOST 29232-91 "Method for determining surface tension using a plate, staple or ring." Kerosene is used as the organic phase. The results are shown in table. 2. According to the table. 2 of the proposed reagent - saponified wood resin reduces surface tension at the border with kerosene by 15 times.

To determine the effectiveness of the claimed method, the filtration characteristics are studied on linear bulk models of the formation 0.4 m long and 0.02 m in diameter. The model is saturated with mineralized water, then oil. Further, the oil is displaced by water to 100% water cut. After that, the injection of solutions of ODS, salts of a polyvalent metal.

The research results are given in table.3. Data analysis table. 3 shows that the use of compositions based on saponified wood resin and polyvalent metal salts leads to an increase in the residual resistance factor and an increase in the oil displacement coefficient due to sedimentation in washed areas and additional washing out of residual oil in oil-saturated zones.

Technology in the field is as follows. First, through the injection well, with the help of the CA-320 aggregate, an ODS solution is pumped into the formation, then a buffer of water in a volume of 5-8 m ³ . After that, inject an aqueous solution of a salt of a polyvalent metal and again a buffer of water in a volume of 5-8 m ³ . The specified cycle is repeated 2-5 times. Next, the displacing agent is pumped.

Application of the proposed method in the oil industry will allow:

- increase the growth rate of oil recovery;

- increase the efficiency of oil displacement from heterogeneous formations at a late stage of development.

Sources of information

1. SU No. 1804548, E 21 B 33/13, 1993.

2. RU No. 2087699, 6 E 21 B 43/32, 1997.

3. SU No. 1596845, E 21 B 43/22, 1996.

Claims (2)

1. A method of developing a water-cut oil deposit, comprising sequentially injecting into the formation through an injection well a rim of an aqueous solution of a reagent containing sodium salts of organic acids and an aqueous solution of a salt of a polyvalent metal, characterized in that saponified wood resin ODS is used as said reagent at a ratio of ODS and polyvalent metal salts of 0.5-1: 1, with a buffer of water between the rims. 2. The method according to claim 1, characterized in that as the specified salt using a water-soluble salt of aluminum, calcium, iron, magnesium, chromium.