RU2427709C1 - Procedure for treatment of bottomhole zone of well - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: procedure for treatment of bottomhole zone of well consists in forcing acid reagent through well into zone of pay, in process conditioning and in removal of reaction products from treated zone; as acid reagent there is used reagent of multi-functional action RMA-K in mixture with montmorillonite dispersed to dimension of particles from 10 to 200 nm at ratio of components, wt parts: 1: (0.001-1).

EFFECT: recovery of intake capacity of pay due to increased depth of treatment; prevention of bottomhole zone mudding with products of reaction; pay bottomhole zone di-claying.

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Description

The invention relates to the oil and gas industry and can be used in the processing of the bottom-hole zone of the well.

There is a method of processing the bottom-hole zone of a well, which includes injecting hydrochloric acid into the formation (Sh.K. Gimatudinov. Oil production reference book. - M .: Nedra, 1974, p. 420-432).

The disadvantage of this method is the high rate of interaction of inhibited hydrochloric acid with carbonate components of the rock and its interaction with clay components of the skeleton of the reservoir, accompanied by the dissolution of oxides of alkali and alkaline earth metals and the gelation process with the formation of insoluble precipitates, which increases with an increase in the content of hydrochloric acid in the working solution, which may cause sealing of oil and water channels.

Closest to the proposed invention in technical essence is a method of treating the bottom-hole zone of the formation, including the sale of an acid reagent containing, wt.%: Hydrochloric acid 8-76, hydrofluoric acid 1.5-18, surfactant 0.3-2, 5, a corrosion inhibitor of 0.1-2.0, a solvent - the rest, through the well into the zone of the productive formation in volumes that ensure that the filtering resistances in the zone of the formation remote from the well over those in its bottom-hole zone, technological exposure and removal of spent reaction products from the treated zone by depressing the well (RF patent No. 2346153, published. 02/10/2009 - prototype).

The specified method does not allow to restore the injectivity of the formation due to the high speed of interaction with the carbonate components of the rock used reagents and the insufficient degree of penetration of the acid reagent into the formation. In addition, the materials used for processing do not provide the necessary prevention of mudding of the bottomhole zone by reaction products in the form of colloidal sediments such as iron hydroxide or its basic salts, gypsum deposits, and do not contribute to the mudding of the bottomhole zone.

The proposed invention solves the problem of restoring or increasing the injectivity of the formation by increasing the depth of processing, preventing mudding of the bottomhole zone by reaction products, and wining out the bottomhole zone of the formation.

The problem is solved in that in a method for processing a bottom-hole zone of a well, including pumping an acid reagent through a well into a zone of a productive formation, carrying out technological soaking and removing reaction products from the treated zone, according to the invention, a multi-function RMD-K reagent in the mixture is used as an acid reagent with montmorillonite dispersed to a particle size of 10 to 200 nm, with a ratio of components, parts by weight: 1: (0.001-1).

SUMMARY OF THE INVENTION

The main reason leading to a sharp decrease in the filtration characteristics of the reservoir in the near-wellbore zone of the wells is the impact during construction and repair of the wells on the rock and reservoir fluids of the used drilling fluids and other process fluids, as well as the physicochemical processes caused by the technology and operation mode of the wells.

When treating the bottom-hole zone, the acid actively reacts with the rock, especially carbonate. In this case, the bulk of the acid is wasted on the reaction at the very beginning of the bottomhole zone. Depth of processing is insignificant. The acid in the rock is able to react with sulfonated components of the rock and cause the precipitation of gypsum, which clogs the pores of the bottomhole zone and minimizes the effect of processing. As a rule, acid treatment does not affect the mudding of the bottomhole zone. Thus, only acid treatment is not always able to increase the permeability of the bottomhole zone. During acid treatment, the specific features of the bottomhole zone should be taken into account. The proposed invention solves the problem of increasing the depth of treatment, preventing mudding of the bottomhole zone by reaction products, and wining out the bottomhole zone. The problem is solved as follows.

When processing the bottom-hole zone of the well, acid-containing reagent is pushed through the well into the zone of the productive formation, technological exposure is held for response from 2 to 4 hours with simple processing and up to 48 hours when processed in the form of a bath. Time is controlled by the magnitude and rate of increase in pressure at the wellhead and is considered sufficient when the pressure in the well, having reached its maximum value, begins to decrease. During interval processing, technological exposure is prescribed at the rate of 2-3 hours per interval. Then carry out the removal of reaction products from the treated zone. As an acidic reagent, a multifunctional reagent RMD-K and additionally montmorillonite dispersed to a particle size of 10 to 200 nm with a ratio of components, parts by weight: 1: (0.001-1) are used. Montmorillonite may be used as an aqueous dispersion.

The multifunctional action reagent RMD-K is produced according to TU 2211-018-26761699-2007 and is a composite mixture with various percentages of inhibited hydrochloric acid and hydrophobic additives (for example, tar oil or other similar actions), the RMD-KM brand additionally contains a modifier , for example sodium polyphosphate or other similar actions.

RMD-K is a liquid from yellow to brown in color, with a density of 1010-1150 g / cm ³ , and a mass fraction of hydrogen chloride of 1-30%.

The reagent RMD-K has an additional inhibitory effect (the degree of inhibitory effect of the components included in the RMD-K is 98-99 (%), the corrosion rate does not exceed 0.09 g / (m ² · h) in an inhibited 20% HCl solution) , reduces interfacial tension at the oil-water interface, which contributes to better oil displacement, has a synergistic effect, i.e. reduce the rate of interaction with the carbonate components of the rock, which allows to increase the degree of penetration of the acid-containing reagent into the formation, reduces the possibility of formation and precipitation of colloidal sediments such as iron hydroxide or its basic salts in the near-well zone, prevents gypsum with no secondary sedimentation when interacting with the components of the formation rock, destroys clay colmatates of almost all drilling fluids used in oil production, changes the molecular nature of pores the surface of the rock of the reservoir, increases the degree of penetration of the acid reagent into the reservoir.

Case Studies

Example 1. Processing the bottom-hole zone of an oil producing well in the interval of a producing formation at a depth of 1680-1684 m. A producing formation with a carbonate reservoir was opened with a well. The collector has numerous small clay interlayers of irregular structure. The rock contains sulfa components. During operation, the flow rate of the well decreased from 8 to 1 m ³ / day. To restore flow rate, a mixture of multifunctional reagent RMD-K and montmorillonite dispersed to a particle size of 10 to 200 nm is pressed through a well into the zone of a productive formation, with a ratio of components, parts by weight of:

RMD-K one Montmorillonite 0.001

The injection volume is assigned at the rate of 1 m ³ / m perforation interval. Spend technological exposure for 3 hours and remove the reaction products from the treated zone by swabbing the well. They supply the well with pumping equipment and put the well into operation. The well production rate after treatment was 9 m ³ / day. The duration of the technological effect lasts up to eighteen months.

Example 2. Processing the bottom-hole zone of an oil well in the interval of the reservoir at a depth of 940-945 m. A well with a carbonate reservoir was opened with a borehole. The collector has numerous small clay interlayers of irregular structure. The rock contains sulfa components. During operation, the flow rate of the well decreased from 12 to 0.5 m ³ / day. To restore flow rate, a mixture of multifunctional reagent RMD-K and montmorillonite dispersed to a particle size of 10 to 200 nm is pressed through a well into the zone of a productive formation, with a ratio of components, parts by weight of:

RMD-K one Montmorillonite 0.1

The injection volume is assigned at the rate of 1.5 m ³ / m perforation interval. Spend technological exposure for 2 hours and remove the reaction products from the treated zone by swabbing the well. They supply the well with pumping equipment and put the well into operation. The well production rate after treatment was 14 m ³ / day. The duration of the technological effect lasts up to eighteen months.

Example 3. Processing the bottom-hole zone of an oil producing well in the interval of a producing formation at a depth of 1200-1205 m. A producing formation with a carbonate reservoir was opened with a well. The collector has numerous small clay interlayers of irregular structure. The rock contains sulfa components. During operation, the flow rate of the well decreased from 16 to 1.5 m ³ / day. To restore flow rate, a mixture of multifunctional reagent RMD-K and montmorillonite dispersed to a particle size of 10 to 200 nm is pressed through a well into the zone of a productive formation, with a ratio of components, parts by weight of:

RMD-K one Montmorillonite one

The injection volume is assigned at the rate of 1.3 m ³ / m perforation interval. Spend technological exposure for 4 hours and remove the reaction products from the treated zone by swabbing the well. They supply the well with pumping equipment and put the well into operation. The well production rate after treatment was 17 m ³ / day. The duration of the technological effect lasts up to eighteen months.

The use of classical hydrochloric acid treatment in neighboring wells with similar conditions leads to a minimal result. It is possible to increase the flow rate by 10-15% of the current.

The application of the proposed method will allow to solve the problem of increasing the depth of processing, preventing mudding of the bottomhole zone by reaction products, loosening the bottomhole zone.

Claims (1)

A method for treating a bottomhole zone of a well, including pumping an acid reagent through a well into a zone of a productive formation, carrying out technological exposure and removing reaction products from the treated zone, characterized in that the multifunctional reagent RMD-K is used as an acid reagent in a mixture with montmorillonite dispersed to particle size from 10 to 200 nm, with a ratio of components, parts by weight: 1: (0.001-1).