RU1445299C - Method of nonuniform layers treatment - Google Patents

Abstract

FIELD: oil-extracting industry. SUBSTANCE: using source of wave, they excite hydraulic waves in working liquid of near bottom zone of layers with maximum water saturation and minimum oil saturation. Then source of waves is moved for distance, equal to 1/4 - 1/2 of length of excited wave in direction of layers with bigger oil saturation. As working liquid they use hydrocarbon solution of nonionic and cation-active, surface-active substance with following ratio of solution members (in mass % ): nonionic surface-active substance - 0.5 - 1.0; cation-active, surface-active substance - 1 - 2; the rest - oil. Due to the composition of solution surface of pores of treated intercalation becomes hydrophobic. EFFECT: method allows to make all intercalations operational, increases efficiency of treatment. 2 dwg

Description

 The invention relates to the oil industry, in particular to the processing of the reservoir in wells, completed drilling.

 The purpose of the invention is to increase the efficiency of processing.

 The formations begin to process from the maximum water-saturated layer with minimum oil saturation, followed by the movement of the water source at a distance equal to 1 / 4-1 / 2 of the wavelength, in the direction of less water-saturated and more oil-saturated.

 In FIG. 1 shows the characteristic of the elastic field when moving the wave source at a distance of 1/4 of the wavelength; in FIG. 2 - the same, at a distance of 1/2 wavelength.

 The method is carried out in the following sequence.

 After the secondary opening of the formation by perforation, a wave source — a hydraulic vibrator — is lowered into the well drilled by conventional technology after perforating the formation, and set it in the range of the maximum water-saturated portion of the reservoir. Then, through the tubing, the well fluid is replaced with a working fluid. An aqueous solution of a nonionic surfactant (for example, 0.5% OP-10 solution) is used as a working fluid for treating the formation in injection wells, and a hydrocarbon solution of a mixture of a nonionic and cationic surfactant (wt.%), For example, OP-10, is used in production wells -0.5-1.0; emulsion 1-2; oil the rest.

 Using a cementing unit, the fluid circulates through a vibrator, in which elastic waves are created that act on the formation in a pulsed mode. The pressure during processing should not exceed the strength of the production casing and the strength of cement stone. After processing the maximum water-saturated interlayer, the vibrator is moved at 1 / 4-1 / 2 wavelengths at intervals as the water saturation decreases and the oil saturation increases.

 When a maximum water-saturated interlayer is treated in a production well with a hydrocarbon solution of a mixture of a nonionic and cationic surfactant, the phase permeability of the interstratum in oil increases to the maximum due to hydrophobization of the pores of the formation, i.e., nonionic surfactants, penetrating into the water-saturated pores of the formation, reduce surface tension at the water-oil boundary, this reduces the force required to bring the pore fluid into motion, increases the degree of dispersion of it on a solid surface. The presence of a cationic surfactant helps to reduce the surface tension of oil and, while increasing the wetting angle of the water, it helps to tear off the water film from the pore surface, stick to a drop of hydrocarbon and quickly spread it over the surface. As a result of the process, the pore surface of the treated layer becomes hydrophobic. Impulse action contributes to better dispersion of the aqueous phase in the pores and treatment of the formation to a greater depth.

 Moving the wave source at intervals with decreasing water saturation and increasing oil saturation allows commissioning of all layers. The distance of movement of the impact, equal to 1 / 4-1 / 2 of the wavelength, is selected from the condition that the amplitude of the excited oscillations decays almost completely at a distance of one wavelength, and therefore the force momentum at this distance also becomes almost zero, since the momentum forces is directly proportional to the square of the amplitude. The effectiveness of the impact on the surface of the reservoir is mainly achieved at a distance of up to 1/2 wavelength from the wave source. When moving the wave source at a distance of 1 / 4-1 / 2 of the wavelength, the waves are superimposed on the poorly worked areas, thereby achieving a uniform impulse effect on the entire power of the reservoir (Fig. 1 and 2).

 The method is carried out in the field at the well 1.

 The reservoir is represented by an siltstone reservoir in the range of 1791.5-1796 m, porosity of 10-18% and oil saturation in the interlayers%: 1791.5-1792.8 74 1792.8-1794.8 51 1794.8-1796 62.

 The well is equipped with a deep well pump with a tubing shank covering the perforation interval. The flow rate of the well is 9.4 tons / day.

To implement the method, the well fluid is replaced with anhydrous oil, then a surfactant hydrocarbon mixture of the following composition is pumped into the perforation interval,%: Fraction K-2 98 Emultal 1 Separol 1
A hydrodynamic pressure transmitter having a frequency of excited oscillations of 3000 Hz is used as a wave source.

 The vibratory shock emitter is lowered into the interval with the highest water saturation of 1792.8-1794.8 to a depth of 1792.6 m and processed by pumping the working fluid through the tubing through a wave source. After that, the wave source is moved down to a distance of 0.25 m, i.e., lowered to a depth of 1793.05 m and processed again. The distance of 0.25 m is selected from 1/2 wavelength, and the wavelength obtained by calculation, based on the excitation frequency and propagation velocity, is 0.5 m.

 Thus, the interval is processed with 51% oil saturation, then with 62%, and lastly with 74%.

Claims (1)

METHOD FOR PROCESSING INHOMOGENEOUS LAYERS by exciting vibrating hydraulic waves in the near-wellbore zone of a formation using a wave source, characterized in that, in order to increase processing efficiency, hydraulic waves are excited in the near-bottom formation zone with maximum water saturation and minimum oil saturation followed by moving the wave source to a distance equal to 1/4 - 1/2 of the wavelength of the excited wave, in the direction of the layers with greater oil saturation, and carbohydrate is used as the working fluid orodny solution of nonionic and cationic surfactant (surfactant) solution with the following ratio of components, wt.%:
Nonionic surfactant - 0.5 - 1.0
Cationic surfactant - 1-2
Oil - Else

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