SU1761944A1 - Procedure for well bottom treatment - Google Patents

Abstract

Usage: in the oil and gas industry when cleaning the bottomhole formation zone (PZP). SUMMARY OF THE INVENTION: In order to increase the cleaning efficiency of the PPP due to coverage of a wider range of the first space, the well is pumped into the well and the reagent destroying the mud cake is maintained in the bath mode. Then a solution of a washing agent is pumped over, a solution of a decolmatting reagent is pumped in, the dispersed clay particles are removed by pumping a formation fluid. In the presence of a demulsifier, the decolmating reagent is fed at cyclic alternating pressure gradients, and the solution of the washing agent is fed through the annular space and taken in a pipe 1 c. f-ly.

Description

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The invention relates to the oil and gas industry.

There is a method of processing the bottomhole zone, which includes pumping a pump-compressor pipe through the column into the reservoir of a solution of a decolmatant reagent.

The known method is characterized by a low cleaning efficiency of the bottomhole zone due to the operation of reagents on deposits of the borehole walls, a small effective radius of impact on the bottomhole zone, as well as a very limited range of characteristic pore sizes that can be affected.

The closest technical solution is a method for processing the bottomhole zone, which includes pumping through the tubing string

a layer of a solution of the decolmatant reagent followed by treatment of the bottomhole zone with acid solutions.

However, the known method is also characterized by a low cleaning efficiency of the bottomhole zone due to the insufficient range of the exposed space due to the small radius of the impact on the bottomhole zone, as well as the narrow boundedness of the range of characteristic pore sizes that can be cleaned.

The aim of the invention is to increase the cleaning efficiency of the near-wellbore zone by providing an impact on a wider range of pore space.

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ABOUT

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The goal is achieved by the fact that, in the well-known method of treatment of the bottomhole zone, the reagent destroying the mudcake is pre-pumped and kept in the bath mode, while the crust products are removed by pumping the detergent solution, and after pumping the decolating reagent solution is removed dispersed clay particles by pumping the formation fluid, and the treatment with a solution of the decolmatant reagent is performed at cyclical alternating gradients of pressure or in the presence deimulgatora. In addition, pumping of the detergent solution is carried out by feeding the latter through the tubing space, and sampling through the tubular one.

An aqueous solution of hydrogen peroxide and sodium carbonate with concentrations of 15–30 g per 1 liter and 75–150 g per 1 liter respectively, or a solution of sodium bicarbonate and salt is used as a reagent that removes a clay crust from the reagent well walls. acids with concentrations of 60-80 g per liter and 3.5-4.0 g per liter, respectively. After injection of the reagent volume, corresponding to the wellbore volume of the perforation area, it is left in contact with the mudcake for 2-5 hours. Washing the products of the mudcake crust is carried out with a washing agent, which uses oil, technical water or an aqueous surfactant solution (neonol AF-14, AFSE-cm-cm) 0.1-0.5% concentration in a volume of 2-4 borehole volumes . As a solution of the decolmate reagent, an aqueous composition of aminoguanidine sulfate (or guanyl hydrazine sulfate), caustic soda and neonol is used in a ratio of 5-15%, 7-15% and 0.2-0.5%, respectively. The volume of solution of the decolmatant agent is selected to the appropriate volume of penetration into the bottomhole zone at a characteristic effective radius. As a deimulgator additive, de-emulsifiers based on salts of aromatic sulfonic acids (DS-Na, DS-SISch), which are, in addition to acid corrosion inhibitors, are used; treatment with cyclical alternating pressure gradients is carried out by providing pressure pulsation at the wellhead wellhead equipment with a choice of a specific value of pulsations and a cycle duration depending on specific values of the permeability of the downhole zone, reservoir temperatures, fluid viscosity or data on the curve

pressure recovery. Thus, following the cleaning of the large-scale part of the first space, due to the processing at cyclical alternating pressure gradients, a selective permeable part of the reservoir is selectively affected. This effect is due to the periodic renewal of the concentrations of the unworked solution of the decolmatant reagent in low-permeable pores, on clogging formations of which dissipative energy conversion takes place and, as a result, the frequency of changing the direct current to the opposite reagent in these pores, thereby accomplishing the purpose .

Then, the well is pumped by an airlift or pumping method, up to the termination of the removal of clay particles, recorded at the wellhead, either by acoustic or visual method. After pumping the formation fluid, injection is carried out into the well followed by treatment of the bottomhole zone with acid solutions.

The acid solution is a stabilizing mixture of inorganic acids with the addition of surface-active substances (surfactants) and stabilizing inclusions with a volume equal to the solution of the decolmatant reagent. After 1-6 hours, the final pumping of the well is carried out with the maximum possible depression, but without creating conditions for disturbing the rock formation in the bottom zone, which ensures maximum release of the pore space from residual clogging formations.

The method is carried out as follows. A well with a depth of 2,921 m is used for the treatment, exposing the Jurassic sediments with a porosity of 0.2. The perforation interval is at a depth of 2829-2878 m, the formation temperature is 85 ° C, the formation pressure is 28 MPa. The diameter of the production string is 146 mm, and the tubing (tubing) is 50 mm. 850 ml of an aqueous solution of a reagent is removed that removes the mudcake from hydrogen peroxide v sodium carbonate with concentrations of 22 g / l and 110 g / l, respectively. Injection is performed by tubing with an open annulus. The reagent was pressed through with clean water, the volume of which is 5.6 m. After 4 hours

contacting the reagent with the clay crust in the bath mode, the well is washed

injection into the annulus and the collection of pipe clean water by volume equal to 3 volumes of the well, i.e. 150 m. Then, an aqueous solution of a decolmatant reagent consisting of 10% (weight) aminoguanidine sulfate, 12% caustic soda and 0.3% neonol (AFE-y) with a volume of 21.8 m is pumped into the well. discharge pressure by opening the tubing with the flow of fluid from the tubing into the ground reservoir. After 10 hours of this operation, the reservoir fluid is pumped by the pump-compressor method, ending at the moment of termination of the noise characteristic of dispersed particles in the well system of the wellhead equipment. Then, acid solutions with a volume of 21.8 m3 are injected into the well through a cementing aggregate, which use a mixture of hydrochloric and hydrofluoric acids, the so-called hydrochloric acid with the addition of surfactant (neonol AFD) and stabilizer solution sodium hexametaphosphate. Then, after 5-6 hours, the final pumping of the well in an intensive mode is carried out using the pump-compressor method.

Claims (2)

1. A method for treating the bottomhole zone, which includes pumping compressor tubes into the reservoir into the formation of a solution of the decolmatant reagent followed by treatment of the bottomhole zone with acid solutions, characterized in that, in order to increase the efficiency of the bottomhole zone by acting on a wider range of pore space, a reagent that destroys the mudcake is pumped into the well and is maintained in the bath mode; the crust products are removed by pumping astvora washing agent, and then pumping the reagent solution dekolmatiruyuschego removed dispersed clay particles by pumping formation fluid, wherein the processing solution dekolmatiruyuschego reagent is performed at the cyclic alternating pressure gradients in the presence of demulsifier. 2. Method pop. 1, characterized in that the pumping of the detergent solution is carried out by feeding the latter through the annulus, and the selection through the tubular one.