RU2114288C1 - Method for increased embracing of nonuniform beds by flooding - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: according to method, alkali solution is pumped into injection well. Then, injected is water solution of dual-valence metal chloride and again alkali solution in proportion of 2:1 at equal concentration of solutions. Application of method allows for increasing oil recovery from beds with reduction of flooding oil to be extracted due to stability of plugging sediment with respect to bed fluids and oil-isolating ability of injected solutions. EFFECT: higher efficiency. 2 cl, 2 tbl

Description

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

 A known method of isolating the influx of formation water, the essence of which is the sequential injection of waste containing sodium sulfate, and calcium chloride solutions [1].

The disadvantage of this method is the low resistance of calcium sulfate to formation fluids, as well as the possibility of reproduction of sulfate bacteria, because CaSO ₄ is a breeding ground for them.

 The closest solution taken as a prototype is a method of increasing the coverage of heterogeneous formations by water flooding, the essence of which is the alternation of rims of production waste containing aluminum chloride and an aqueous solution of sodium carbonate [2].

 The disadvantage of this method is the lack of oil washing and wetting properties of the solutions used in the implementation of the method, which leads to less effective oil recovery.

 The objective of the invention is to increase oil recovery and reduction of water cut of produced oil due to the stability of the plugging sediment to reservoir fluids and oil washing ability of injected solutions.

 The problem is solved in that in a method involving the injection of an aqueous solution of a divalent metal chloride through an injection well, an alkaline solution is initially pumped into the formation, then an aqueous solution of a divalent metal chloride and again an alkaline solution in a ratio of 2: 1 at an equal concentration of solutions, while as alkaline solution use alkaline waste worsted-woolen production (SHCHOKP).

ShchOKP according to TU 2216-001-45781213-96 contains:
Sodium carbonate (Na ₂ CO ₃ ),% - 8.0
Technical wax (lanolin),% - 5.0
Liquid soap (surfactant),% - 4.0
and has
solution pH - 8
Density, kg / m ³ - 1033
As chlorides of divalent metals, CaCL ₂ , MgCL ₂ , ZnCL ₂ , BaCl _{2 are used} .

 The essence of the invention is as follows.

Half of the estimated volume of alkaline waste is pumped into the formation through the injection well, then the same volume of calcium chloride solution (MgCL ₂ , ZnCL ₂ ) is then pumped, the second half of the alkaline waste is pumped and forced through with a displacing agent.

 In the formation, a solution of calcium chloride, located between the two rims of the alkali, completely reacts with the formation of sediment in the form of calcium hydroxide and calcium carbonate. The formed sediment clogs the formation and increases the filtration resistance, thereby increasing the coverage of the formation by exposure. Excess alkaline solution is forced into the reservoir by a displacing agent, and alkaline effects on interlayers newly involved in development occur.

 The presence of surfactants and lanolin in alkaline waste improves the washing and wetting properties of the alkaline solution. As a result of the complex effect on the formation by increasing the coverage of the formation by the action in combination with the alkaline effect, the oil recovery increases.

 In laboratory conditions, studies of the solutions used to implement the technology according to the claimed method. The results are shown in table. 1, from the data of which it is seen that alkaline waste has the best washing ability. As it dilutes, its laundering ability decreases.

 When implementing the method at the field, injection is carried out into one or more injection wells.

15 m ^{3 of} undiluted alkaline waste, a solution of calcium chloride in a volume of 10 m ³ and another 15 m ^{3 of} alkaline waste are successively completed in the well. Then a displacing agent is injected, which is used as water.

In the case of high injectivity of the formation before the injection of working reagents, it is allowed to pump a suspension of wood flour of 0.1 - 0.5% in a volume of 100 - 500 m ³ .

 To implement the technology using standard equipment. Reagents can be injected in cycles. Each subsequent cycle is similar to the first cycle.

The optimal injection volume of these reagents is determined by generally accepted methods, based on the geological and technical features of the formation, and can be 100 - 600 m ³ .

 According to the proposed method, in order to reduce water cut and increase oil recovery, work was carried out at Mykhpay field (BV formation in injection wells N 3031, 3042).

650 m ^{3 of} sludge-forming dispersion-washing system was pumped into each well, for the preparation of which 30 m ^{3 of} alkaline waste and 10 m ^{3 of} calcium chloride with a density of 1320 kg / m ³ were consumed.

 The test results of the technology according to the claimed method are presented in table.2.

 From the table. 2 shows that the water cut of the produced fluid in the reacting well N 1098 decreased by 9.9 - 44.4%, the increase in oil production was 25.3 - 109.0 t / s. In well N 1105, water cut decreased by 4.3 - 30.4%, the growth rate was 11.5 - 77.4 t / s. In well No. 1111, water cut decreased by 3.1 - 24.0%, and the increase in oil production amounted to 3.3 - 33.2 t / s.

 The proposed method allows to reduce the water cut of produced oil and increase oil recovery. The method is simple and affordable materials, environmentally friendly and allows the use of industrial waste.

Claims (3)

 1. A method of increasing the coverage of heterogeneous formations by water flooding, including the injection of an aqueous solution of divalent metal chloride through an injection well, characterized in that an alkaline solution is initially pumped into the formation, then an aqueous solution of divalent metal chloride and again an alkaline solution in a ratio of 2: 1 at an equal concentration of solutions .  2. The method according to claim 1, characterized in that the alkaline solution is used alkaline waste worsted-woolen production containing sodium carbonate, surfactants and lanolin. 3. The method according to claim 1, characterized in that as the chloride of the divalent metal using CaCl ₂ , MgCl ₂ , ZnCl ₂ and BaCl ₂ .

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