RU2123104C1 - Method of developing water-flooded oil pool - Google Patents

Abstract

FIELD: oil-producing industry. SUBSTANCE: method includes injection into formation through at least one injection well and/or producing well of aqueous solution of salt of polyvalent metal and alkali solution with subsequent injection of working medium and oil is withdrawn through producing wells. Injected between injection of aqueous solution of polyvalent metal salt and alkali solution is displacement fluid. Aqueous solution of salt of polyvalent metal and/or displacement fluid, and/or alkali solution contain additionally water-soluble polymer. Alkali solution is used in the form of solution of alkali or salt solutions forming low-soluble compounds with salts of polyvalent metal or compounds containing them including production wastes. Polyvalent metal salts are used in the form of their technical grades or in the form of compositions containing them including production wastes. Displacement fluid is used in the form of working medium applicable of oil pool, and/or fresh water, and/or mineralized water. EFFECT: increased efficiency. 3 cl

Description

 The invention relates to the oil industry and may find application in the development of oil deposits.

 A known method of developing a water-cut oil deposit, including injecting a portion of water with distillation of acetic acid from the production of hydroxyethylene diphosphonic acid, then a portion of water with additives from a mixture of distillation of acetic acid from the production of hydroxyethylene diphosphonic acid and aluminum-containing waste from the alkylation process with precipitation in water-washed permeable sections [1].

 The disadvantage of this method is its low efficiency in heterogeneous formations due to the small volume of sediment formed in the washed zones and the dependence of its formation on the pH of the medium.

 Closest to the invention, the technical essence is a method of developing an irrigated oil reservoir, which includes injecting into the formation through an injection well an aqueous solution of a multivalent metal salt, a buffer liquid, an alkaline solution — an alkaline aqueous solution of caprolactam production followed by injection of a working displacing agent [2].

 The known method has low efficiency due to the high mobility of the injected solutions and the resulting sediment in the reservoir.

 The proposed method solves the problem of increasing the efficiency of developing an irrigated oil reservoir due to a decrease in the mobility of the injected solutions and sediment formed in the reservoir, an increase in the plugging effect of the irrigated reservoir, and an increase in the oil recovery of the reservoir.

 The problem is solved in that in the method for developing an irrigated oil reservoir, comprising injecting an aqueous solution of a multivalent metal salt, a buffer liquid and an alkaline solution into the formation, followed by pumping a working agent, according to the invention, the injection is carried out through at least one injection and / or production well, as an alkaline solution, use an alkali solution or solutions of salts forming sparingly soluble compounds with salts of a multivalent metal, or compositions containing them, including commodity f Forms and production wastes, an aqueous solution of a multivalent metal salt, and / or a buffer liquid, and / or an alkaline solution additionally contain a water-soluble polymer, and the selection of oil is carried out through production wells. As a buffer fluid, a working agent used in the development of an oil reservoir and / or fresh and / or mineralized water can be used.

 As salts of polyvalent metals, their commodity forms or compositions containing them, including industrial wastes, are used. For example, aluminum chloride is a waste product from the alkylation of benzene with an olefin.

 Solutions of salts that form sparingly soluble compounds with salts of multivalent metals are salts formed by a weak acid and a strong base - alkali.

 SUMMARY OF THE INVENTION

 When developing a waterlogged oil reservoir, high-permeability zones of the reservoir are flushed and the working agent moves predominantly along the washed zones. As a result, significant reserves of the deposit remain uncovered, which reduces the oil recovery of the reservoir. The proposed method solves the problem of increasing oil recovery deposits. The problem is solved by the following set of operations.

An aqueous solution of a multivalent metal salt and an alkaline solution are pumped into the formation through at least one injection and / or production well, followed by injection of the working agent, and oil is taken through the production wells. The injected reagents enter the most washed zones, where a chemical reaction occurs between them with the formation of a poorly soluble polymer stabilized precipitate. The polymers form a three-dimensional structure due to their crosslinking by metal ions (Al ⁺³ , Gr ⁺³ , etc.), which creates long-term blocking of zones of increased permeability. In addition, the polymer acts in the usual way, equalizing the mobility of the phases and reducing water permeability due to the manifestation of the residual resistance factor. The permeability of the washed zones approaches the permeability of neighboring zones. The permeability is equalized in the zones of the reservoir. If necessary, the reagent injection cycle is repeated.

The presence of buffer fluid allows you to adjust the zone of the process of sedimentation. The most appropriate buffer fluid injection volume is 5-10 m ³ . The use of mineralized water or a working agent used in the development as a buffer fluid increases the volume of sediment in the formation due to their interaction with alkaline solutions. Since the method is applicable at the stage when the deposit is substantially flooded and when associated formation water having an affinity for the reservoir is used as a working agent, the effect of using the working agent as a buffer liquid becomes very significant.

 The use of a multivalent metal salt and / or buffer liquid and / or alkaline solution of a water-soluble polymer in an aqueous solution facilitates the penetration of reagents into the most permeable zones and a more significant effect of equalization of permeabilities. Using a water-soluble polymer as a result of a chemical reaction, less mobile sediments are formed in the pores of the formation, which positively affects the alignment of permeabilities. The greatest effect is observed with the introduction of the polymer in all injected solutions.

 As the water-soluble polymer, polyacrylamide (PAA), carboxymethyl cellulose (CMC), hydroxyethyl cellulose (OEC), polyethylene oxide (PEO) and the like are used. As salts forming poorly soluble compounds with salts of a multivalent metal (formed by strong alkali and weak acid), for example, sodium bicarbonate, sodium carbonate, trisodium phosphate, sodium silicate and the like are used. It is possible to use solutions of caustic sodium, caustic potassium, ammonium hydroxide. Suitable compositions containing alkalis and salts are, for example, alkaline stocks of caprolactam production and the like. As aqueous solutions of salts of polyvalent metals, aluminum, magnesium, calcium, iron, copper, barium, iron sulfate, aluminum, etc. chlorides are used, as well as various compositions containing salts of polyvalent metals, for example, aluminum chloride - a waste from the production of benzene alkylation with olefin.

 An aqueous solution of a multivalent metal salt and an alkaline solution use from 1% to the maximum possible concentration, depending on the solubility of the taken substance in water, preferably 15-20%.

 The polymer in an aqueous solution of a salt of a multivalent metal, in an alkaline solution and a buffer liquid, use from 0.005% to the maximum possible concentration that ensures the solution to leak into the formation, individual for each type of polymer. For example, Accotrol-623 polyacrylamide is used at a concentration of 0.01-0.5%, most often used at a concentration of 0.05-0.1%.

 The amounts of an aqueous solution of a multivalent metal salt and an alkaline solution should be in a stoichiometric ratio to ensure the most complete reaction of the substances taken. When using mineralized water as a buffer liquid, the amount of alkaline reagent is increased based on its reaction with salts of mineralized water. At the same time, the ratio of the volumes of an aqueous solution of a multivalent metal salt, a buffer liquid, and an alkaline solution should be (0.1-10.1) :( 0.01-10.0) :( 0.1-40.0).

 Examples of specific performance of the method.

Example 1. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum chloride of 33% concentration containing 0.01% polyacrylamide, 1 cm ^{3 of} associated Senoman water, 25 cm ^{3 of} an alkaline runoff solution of caprolactam production with a dry matter content of 45.2 % On the other hand, models take oil.

Example 2. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum sulfate of 20% concentration, containing 0.5% carboxymethyl cellulose, 0.1 cm ^{3 of} associated Devonian water, 4.5 cm ^{3 of an} aqueous solution of sodium hydroxide of 32% concentration, are successively pumped 0.01% polyacrylamide. On the other hand, models take oil.

Example 3. In a model of an oil reservoir, 25 cm ^{3 of an} aqueous solution of iron (III) chloride are sequentially pumped at a 4% concentration containing 0.3% carboxymethyl cellulose, 25 cm ^{3 of} associated Senoman water, 10 cm ^{3 of} an alkaline water solution of caprolactam production with a dry residue content 17.2% containing 0.1% PEO. On the other hand, models take oil.

Example 4. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum chloride of 33% concentration, 1 cm ^{3 of} water containing 0.05% polyacrylamide, 25 cm ^{3 of an} aqueous solution of alkaline runoff of caprolactam production with a solids content of 45.2% are successively pumped. On the other hand, models take oil.

Example 5. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of iron chloride of 17% concentration containing 0.2% carboxymethyl cellulose, 1 cm ^{3 of} associated Devonian water, 10 cm ^{3 of an} aqueous solution of sodium carbonate 15.5% concentration containing 0 are sequentially pumped. 4% carboxymethyl cellulose. On the other hand, models take oil.

Example 6. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum chloride of 33% concentration containing 0.15% PEO, 1 cm ^{3 of} water containing 0.05% polyacrylamide and 25 cm ^{3 of an} aqueous solution of alkaline runoff of caprolactam production are sequentially pumped with solids content of 45.2%. On the other hand, models take oil.

Example 7. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum chloride of 10% concentration, 1 cm ^{3 of} water containing 0.6% carboxymethyl cellulose, and 10 cm ^{3 of an} aqueous solution of trisodium phosphate 12% concentration are sequentially pumped. On the other hand, models take oil.

Example 8. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of calcium chloride of 15% concentration containing 0.03% polyacrylamide, 1 cm ^{3 of} associated Senoman water containing 0.08% polyacrylamide, 10 cm ^{3 of an} aqueous solution of alkaline runoff produced by caprolactam are sequentially pumped with a solids content of 24.3% containing 0.1% carboxymethyl cellulose. On the other hand, models take oil.

Example 9. In a model of an oil reservoir, 10 cm ^{3 of an} aqueous solution of aluminum chloride of 10% concentration, 1 cm ^{3 of} water containing 1% carboxymethyl cellulose, 10 cm ^{3 of an} aqueous solution of alkaline runoff of caprolactam production with a solids content of 16% containing 0.2 % carboxymethyl cellulose. On the other hand, models take oil.

Example 10. From the output of the oil reservoir model, 10 cm ³ aluminum chloride is sequentially injected - a waste product with an aluminum chloride content of 20%, 1 cm ^{3 of} fresh water containing 0.05% PAA, 40 cm ³ sodium silicate 3% concentration, 10 cm ³ Cenomanian water containing 0.05% PAA. Oil is taken from the same side of the model.

Example 11. A 25 cm ³ aqueous solution of alkaline production of caprolactam with a dry matter content of 45.2%, containing 0.05% polyacrylamide, 1 cm ^{3 of} fresh water, 10 cm ^{3 of an} aqueous solution of benzene alkylation production olefin with the content of aluminum chloride 33% containing 0.05% polyacrylamide. On the other hand, models take oil.

Example 12. In a model of an oil reservoir, 5 cm ^{3 of} associated cenomanian water containing 0.07% polyacrylamide, 10 cm ^{3 of an} aqueous solution of aluminum sulphate, 5 cm ^{3 of} associated cenomanian water containing 0.07% polyacrylamide, 10 cm ^{3 of an} aqueous solution are sequentially pumped sodium hydroxide 16% concentration. On the other hand, models take oil.

 The oil recovery coefficient in examples 1-12 is from 55 to 65%, which is 1.3-1.7 times higher than the prototype. With the use of polymer solutions in a buffer liquid and in an alkaline solution, the oil recovery coefficient increases by 3-4 points in comparison with the use of polymer solutions only in a multivalent metal salt solution.

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

Sources of information:
1. USSR author's certificate N 1627677, class E 21 B 43/22, op. 1991 year

 2. RF patent N 2039224, cl. E 21 B 43/22, op. 1995.

Claims (3)

 A method of developing an irrigated oil reservoir, comprising injecting an aqueous solution of a multivalent metal salt, a buffer liquid, an alkaline solution into the formation, followed by pumping a working agent, characterized in that the injection is carried out through at least one injection and / or production well, as an alkaline solution use an alkali solution or solutions of salts forming sparingly soluble compounds with salts of a multivalent metal, or compositions containing them, including commodity forms and production wastes, projectile loader multivalent metal salt solution and / or spacer fluid, and / or the alkaline solution further comprises a water-soluble polymer and the oil is carried out through selection of the production wells.  2. The method according to claim 1, characterized in that the working agent used in the development of the oil reservoir and / or fresh and / or mineralized water is used as a buffer liquid.  3. The method according to claim 1, characterized in that the salts of multivalent metals are their commodity forms or compositions containing them, including production waste.