SU1624129A1 - Compound for control of oil-field development - Google Patents

Abstract

The invention relates to the oil industry. The purpose of the invention is to improve the insulating and oil-displacing properties of the composition. The composition has a pH of 1-3 and contains the following components when compared in May. %: water-soluble polymer 0.01–5, chromium 0.004–0.09, anionic surfactant (ANAS) 0.1–5; water the rest. Hydrolyzed polyacrylamide and cellulose derivatives are used as a water-soluble polymer, sodium and potassium chromate and bichromates are used as chromates, water-soluble petroleum sulfonates, alkyl (benzene) sulfonates, lignosulfonates and their single materials are used as anionic surfactants. The composition is prepared by mixing the aqueous ones. solutions of polymer and chromate with anionic surfactants. Pressure values are created by the addition of mineral acid (hydrochloric, sulfuric). The use of the composition improves the quality of the insulation work. 1 hp f-ly. about $ (L

Description

The invention relates to the oil industry, in particular to compositions for regulating the development of oil fields.

The aim of the invention is to improve the insulating and oil-driving properties of the composition due to the formation of a more durable structure of the cross-linked polymer and surface-active polymer-containing composition (PAPS) while reducing the consumption of the components included in it.

The goal is achieved by the fact that the composition for regulating the development of oil fields, containing a water-soluble polymer, chromates, a reducing agent - and water, creates a pH of 1-3, and as

additives - reducing agent - an anionic surfactant is used in the following ratio of components, Maya%: Water soluble polymer Chromates

Anionic surfactant Water

Hydrolyzed polyacrylamide and cellulose derivatives, for example, carboxymethylcellulose, are used as a water-soluble polymer, and mono-valent cations and dichromates of monovalent cations, for example, potassium and dichromates, are used as a polymer.

0.01-5.0 0.004-0.09

0.1-5.0 Else

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sodium, and as anionic surfactants - water-soluble petroleum sulfonates, apkyl benzene sulfonates, alkyl sulfonates, ligninsulfonates and their derivatives

A pH of 1-3 compositions is controlled by the addition of inorganic acids, for example hydrochloric or sulfuric acid, with

For the preparation of the composition, 0.1-5.0% aqueous solutions of the polymer are used with a carboxyl group content of 5-30%; 1-2% aqueous acidic solutions of monovalent cation chromate with anionic surfactant in an amount sufficient to reduce hexavalent chromium to trivalent, having a pH of 0.5-1.5. Both solutions are mixed in a predetermined ratio, while the pH of the resulting composition is Prepared composition is stored indefinitely, not draining. However, when the composition is injected into the oil reservoir with an increase in pH above 3 due to the reaction of the acid with the rock and mixing with the reservoir fluids, the polymer and the alkyl sulphocarboxylic acid are crosslinked with trivalent chromium to form a viscoelastic gel. The latter blocks the porous medium in which it forms , from penetration of the water injected into or being extracted from the reservoir through it, changing the direction of the injected water to the poorly developed and oil-saturated zones, i.e. allows you to regulate the development of oil field by flooding

The composition is tested for isolating and oil-forced ability.

For the preparation of the compositions, the polyacrylamide mol. Mae is used as the polymer. 16 million and the degree of hydrolysis of 25% (P-1), polnacrylamide with

mol.mae. 7 million and the degree of hydrolysis

14% (P-2) and carboxymethylcellulose (CMC), sodium bichromate (BHP) and potassium (BHC) are used as chromates, and petroleum sulfonates of the grade NCHK and KCHNR, alkyl benzene sulfonate (ABS) ) and condensed sulfite-alcohol bard (KSSB).

Of these components, a 0.005-5.0% aqueous polymer solution and a 1-2% aqueous hydrochloric or sulfuric acid solution of chromatsv and an AQUE are prepared. Prior to the study of the compositions, a solution of chromates and

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40

45

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APAV with mixing. Test compositions are obtained with a pH of 1-3 and the isolation and oil-forced properties are determined by the following procedure. The compositions of the prototype are prepared similarly, but without hydrochloric and sulfuric acids.

The reservoir model (core) with a length of 9 and a diameter of 2.5 cm, represented by quartz sand and 1-10% of its weight of calcium carbonate - marble (CaCO), with a permeability of 0.63-29.5 μm2, is saturated with water with a total salt content of 12 % Then, to create bound water, 2-3 volumes of core pores are pumped with oil viscosity of 9.3 mPa-s and fresh water is pumped through the core at a constant speed of 7.18 m / day to create residual oil saturation. Conduct a study of formulations

The residual oil saturation core is pumped at the same rate of 3 pore volumes of the studied composition, the model is kept for 16 hours to form a cross-linked polymer and then 5 volumes of fresh water pores are pumped. The inlet and intermediate point manometers (4.5 cm from the inlet) of the model determine the maximum injection pressure of the composition and water before and after the composition and calculate the mobility of the composition (flc), water to the composition (&) and after the composition (&;), and by their mobility, the factor (R) and the residual resistance factor (ROCT) are calculated at the input and at the intermediate point divided by the formulas:

- and R OST T /

R

By magnitude

OST

R and R

ost

The insulating properties of the composition are judged: the higher these factors, the better the insulating properties.

Samples of the liquid emerging from the core during the injection of the compositions and water are collected and the oil-displacing properties of the compositions (1c) are determined by the amount of oil displaced as the ratio of the oil displaced to the oil remaining in the model after it has been flooded before the composition is pumped.

The investigated compositions and their technological properties are given in the table.

The proposed composition (pH 1-3) in its insulating and oil-driving properties is several times greater than the composition of the prototype, having a pH of 5.7-8.0

516

(compare composition 3 with composition 4, S and 6 with 7, 8 with 9 and 10 with 11) o However, compositions with a polymer content below 0.01%, chromate — below 0.004% l ALLV — less than 0.1% show low technological properties that are comparable to the properties of the composition of the prototype (compare compounds 1 and 3 with composition 2). Thus, the lower limit of the content in the proposed composition for the polymer is 0.01 wt.%, For the chromates - 0.004 wt.% And for the ALAS - 0.1 wt.%, And the upper limit of the content (. high consumption of components) for the polymer - 5.0% by weight, for chromates - 0.09 May,% and for anionic surfactants - 5.0 May,% „

The proposed compositions have not only high insulating and oil-driving properties with a lower consumption of reagents for their preparation in comparison with the known compositions, but also low viscosity, which facilitates their injection into the reservoir. Their shelf life without stitching is long enough.

The technology of application of the compositions is simple and consists in pumping them into a layer to reduce the injection capacity of the well by 20-50%, displacing the composition from the wellbore into the reservoir with water, holding the reservoir for 16-24 hours and putting the well into operation for oil

wells or water injection for injection wells

The use of the invention allows to improve the quality of insulation works to limit water inflow into the oil

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five

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These wells can be used to regulate the development of fields during waterflooding, which provides an increase in oil production with a simultaneous decrease in the production of water for each well.

Compared with the composition of the prototype, the proposed composition allows an additional 14–20 tons of oil per 1 m3 of composition,

Claims (1)

Invention Formula 1 "Composition for controlling the development of an oil field containing water-soluble polymer, chromates, a reducing agent, and water, characterized in that, in order to improve the insulating and oil-displacing properties of the composition while reducing the expenditure of the components included in it, contains an anionic surfactant in the following ratio of components,% in May: Water soluble polymer0,01-5,0 Chromates0.004-0.09 Anionic surface-acne active 0.1–5.0 Water Else  2, the composition according to p. 1, characterized in that the quality of the anionic surfactant substance contains water soluble oil sulphonates mm alkyl benzene sulphonates, or alkyl sulphonates, or lignosulphonates, or their derivatives Table continuation