RU2133823C1 - Method for treating oil bed - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: this method particularly relates to methods of treating non-uniform oil beds with purpose of increasing area of their treatment with regulation of injectivity profile of wells. According to method, undertaken is alternate injection of 3-6 pairs of portions of water clayey dispersion and diluted water solution of vat still residue from production of synthetic glycerine or ethylene glycol. Ethylene glycol is produced by hydration of ethylene oxide. Diluted water solution of synthetic glycerine can be injected in combination with non-ionic surface active matter. Application of aforesaid method increases zone of subjecting bed to treatment together with regulation of well injectivity profile. In addition, realization of method is made cheaper. EFFECT: higher efficiency. 1 cl, 1 tbl, 1 ex

Description

 The invention relates to the oil industry, in particular to methods for treating a heterogeneous oil reservoir to increase its coverage by controlling the injectivity profile of wells.

 A known method of increasing oil production by increasing the coverage of the formation by exposure to a composition based on the bottom residue of the production of synthetic glycerol or ethylene glycol obtained by hydration of ethylene oxide, hydrocarbon or alcohol-containing solvent and water [1].

 A disadvantage of the known technical solution is its low efficiency in reservoirs with high permeability of the porous medium.

 Closest to the proposed technical essence and achieved effect technical solution [2] is a method of treating an oil reservoir by sequentially injecting a 1-30% aqueous solution of aluminum, calcium, magnesium salt; then 0.001 - 0.1% aqueous polymer solution - polyacrylamide, CMC and a suspension of dispersed mineral particles - clay suspension; each of the rims is pressed through with a buffer liquid - water with a cycle of 2-5 times and the subsequent injection of a displacing agent - water.

 The disadvantage of the prototype [2] is the low coverage of the formation due to the low residual resistance factor during filtration in a porous medium, as well as the use of expensive water-soluble polymers: PAA, CMC, polyoxyethylene, organosilicon polymers, polyvinyl alcohol as a clay disperse stabilizer.

 Solved by the invention, the task and the expected technical result are to increase the efficiency of the method of processing an oil reservoir by increasing the coverage of the reservoir by exposure and regulating the profile of the injectivity of wells and cheaper method.

 The problem is solved in that in a method for treating an oil formation, which includes alternately injecting portions of an aqueous polymer solution and an aqueous clay dispersion into the formation, 3-6 pairs of portions of an aqueous clay dispersion and a dilute aqueous solution of bottoms from the production of synthetic glycerin Polyglycerin are alternately pumped or ethylene glycol obtained by hydration of ethylene oxide, "Polyglycol". Moreover, a dilute aqueous solution of "Polyglycerol" or "Polyglycol" can be pumped into a composition with a nonionic surfactant surfactant.

 The specified diluted aqueous solution of "Polyglycerol" or "Polyglycol", possibly in a composition with nonionic surfactants, is a clay stabilizer.

VAT residue production of synthetic glycerin "Polyglycerin" is a by-product of the production of synthetic glycerin. General reagent formula
CH ₂ OHCHOHCH ₂ O (CH ₂ CHOHCH ₂ O) _n H,
where n = 1-3.

 Polyglycerin is non-combustible, non-explosive, non-toxic and does not form toxic compounds in the air. It is produced by the Sterlitamak software "Caustic" (TU 6-01-0203314-92-89). It is a dark brown liquid with a pH of 12-14 and mass fraction,%: of the main substance - not less than 45, sodium chloride - not more than 15, water - not more than 40. Polyglycerol is known to be used, for example, to reduce the adsorption of nonionic surfactants used to increase oil recovery [3].

The bottom residue of the production of ethylene glycol obtained by hydration of ethylene oxide is a mixture of glycols (di-, tri-, tetraethylene glycol, etc.) with a density of at least 1075 kg / m ³ (TU 38 30 214-88). It is applied as additives to boiler fuel and cooling liquids under the name "Polyglycol".

 It is the claimed sequence of operations with the alternate injection of pairs of portions of an aqueous clay dispersion and the indicated clay stabilizer that is necessary and sufficient to increase the coverage factor of the formation by impact while leveling the injectivity profile of the wells.

 The effectiveness of crushing the rims of an aqueous clay dispersion and stabilizer into 3-6 portions was experimentally shown and technologically justified (Table 1). Clay and stabilizer concentrations may be of the order of 3 and 0.5 wt.%, Respectively, or slightly higher for more developed formations.

 An increase in the concentration of vat residues of the production of polyhydric alcohol oligomers above 2 wt.% Is undesirable due to the established by the authors of the phenomenon of suppression of the process of swelling of clay particles in more concentrated solutions of polyglycerol and polyglycol.

The method is carried out by the following sequence of operations:
1. Injection into the reservoir 1 / n of the volume of the rim of the aqueous clay dispersion.

2. Injection into the reservoir 1 / n of the volume of the stabilizer rim
3. The repetition of operations for p.p. 1-2n times, n = 3-6.

An example of a specific implementation of the method. Polyglycerol and clay powder are delivered to an injection well with an injection rate of 840 m ³ / day at 70 atm of field X, represented by a Devonian productive formation with an average formation thickness of 13 m and an open porosity of 0.22.

Three pairs of portions of 100 m ³ clay dispersion (3%) and polyglycerol (0.5%) are pumped alternately. Between portions, water is injected in a volume of 2.0 m ³ .

As a result of the formation treatment, the injectivity of the well was 400 m ³ / day at 110 atm, and the additional production amounted to 1890 tons of oil.

 Thus, the proposed method of processing an oil reservoir is effective and industrially applicable without expensive water-soluble polymers.

Sources of information
1. RF patent N 2065941, E 21 B 43/22, publ. BI N 24, 1996.

 2. RF patent N 2039225, E 21 B 43/22, 33/138, published. BI N 19, 1995

 3. Ignatyev V.E., Silishchev N.N., Nigmatullina R.F. and others. Improving the technology of application of nonionic surfactants // Oil industry. 1992, N 6, p. 49.

Claims (2)

 1. A method of treating an oil reservoir, comprising alternately injecting portions of an aqueous polymer solution and an aqueous clay dispersion into the reservoir, characterized in that 3 to 6 pairs of portions of an aqueous clay dispersion and a dilute aqueous solution of bottoms produced by the synthetic glycerin Polyglycerin or ethylene glycol obtained by hydration of ethylene oxide, "Polyglycol".  2. The method according to p. 1, characterized in that the diluted aqueous solution of "Polyglycerin" or "Polyglycol" is pumped into a composition with a nonionic surfactant surfactant.

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