RU2579095C1 - Method of developing low-permeability oil reservoirs - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention can be used in development of low-permeable oil deposit. According to the method working agent is pumped through injection wells. Oil is extracted through production wells and formation hydraulic fracturing is performed in wells. In low permeable reservoirs with permeability less than 1 ppm, the preferred fracture of hydraulic fracturing in length. That is ensured by the main hydraulic fracturing process with using small fractions of proppant size 30/60 mesh and less. Buffers of the liquid between the stages of proppant of not more than 10 t of 1.5-5 m³ on 1 t of proppant. Final concentration of proppant provide not more than 250 kg/m³. Fracturing fluid is used, without the gelling agent and containing a surfactant. When pumping of fracturing fluid flow rate is maintained 5.0 m³/min and more.

EFFECT: increased efficiency of hydraulic fracturing and increased oil recovery of oil deposit.

1 cl, 1 ex

Description

The invention relates to the oil industry and may find application in the development of low permeability oil deposits.

A known method for the development of oil and gas deposits using hydraulic fracturing (Fracturing), including the conduct at the first stage of the development of hydraulic fracturing in all producing wells. At the same time, using geophysical methods based on registration of microseismic vibrations, as well as on registration by downhole dipsticks, changes in the dip angle of the formations that occur during hydraulic fracturing, determine the direction of the development of hydraulic fractures in azimuth. When production wells decrease below 10% of the initial values, hydraulic fracturing is carried out in all injection wells, and immediately after hydraulic fracturing in injection wells, the formation is treated with high pressure to increase injectivity. When the production rates of production wells fall by more than 50% of the initial values, they perform repeated hydraulic fracturing (RF patent No. 2496001, published on October 20, 2013).

Closest to the proposed invention in technical essence is a method of developing an oil reservoir, according to which a working agent is pumped through injection wells, oil is taken through production wells and primary and repeated hydraulic fracturing is carried out in the wells. With repeated hydraulic fracturing, perforation of formations with a density of at least 10 holes per linear meter of hydraulic fracturing interval is performed. The proppant mass is injected with at least 10% more proppant mass during primary fracturing. The final proppant concentration is increased in comparison with primary hydraulic fracturing by at least 10%. The loading volume of the polymer gelling agent in comparison with the primary hydraulic fracturing is reduced by at least 10% (RF patent No. 2540713, publ. 02/10/2015 - prototype).

A common disadvantage of the known methods is the low efficiency of hydraulic fracturing in a low-permeability oil reservoir, which reduces the oil recovery of the reservoir.

The proposed invention solves the problem of increasing the efficiency of hydraulic fracturing and, as a result, increasing oil recovery of a low-permeability oil reservoir.

The problem is solved in that in a method for developing a low-permeability oil reservoir, which includes injecting a working agent through injection wells, taking oil through production wells and conducting hydraulic fracturing in the wells, according to the invention in low-permeability reservoirs having a permeability of less than 1 mD, provide a predominant development of hydraulic fracturing in the length for which the main hydraulic fracturing process is carried out using a small fraction of proppant with a dimension of 30/60 mesh or less, using fluid buffers between y proppant stages is not more than 10 m in a proportion of 1.5 to 5 m ³ per 1 m proppant with a final concentration of proppant is not more than 250 kg / m ³ is used fracturing fluid gellant lacking and containing a surfactant, and at pumping support fluid flow rate of 5.0 m ³ / min or more.

SUMMARY OF THE INVENTION

The development of an oil reservoir with ultra-low permeability of the reservoir presents serious difficulties. Even such a powerful tool to increase well productivity as hydraulic fracturing in such deposits is ineffective. The proposed invention solves the problem of increasing the efficiency of hydraulic fracturing and, as a result, increasing oil recovery of a low-permeability oil reservoir. The problem is solved as follows.

When developing a low-permeability oil reservoir, the working agent is injected through injection wells, oil is taken through production wells and hydraulic fracturing is performed in the wells. In low-permeability reservoirs having a permeability of less than 1 mD, the main hydraulic fracturing process is carried out using a fine fraction of 30/60 mesh size or less, using liquid buffers between proppant stages of not more than 10 tons from the calculation of 1.5 to 5 m ³ per 1 ton proppant, using a final proppant concentration of not more than 250 kg / m ³ , use a fracturing fluid devoid of a gelling agent, and when pumping, a fluid flow rate of 5.0 m ³ / min or more is supported.

Typically, fracturing is performed using proppant medium and large fractions: the most commonly used 16/20 mesh and 12/18 mesh. The result is a created crack with a short length, usually no more than 100 m (one wing), with high conductivity in the near-wellbore part. However, in low-permeability reservoirs, a high proppant pack concentration is not required, and the main condition for increasing productivity is the predominant crack development in length (from 100 m and more). As a result, the use of modes and calculations in the design of hydraulic fracturing for standard reservoirs will not allow to qualitatively increase the productivity of wells with low permeability reservoirs.

For more efficient fracturing of formations with a permeability of not more than 1 mD, it is proposed to use proppant only in small fractions - 30/60 mesh or less. To prevent proppant shielding, a fluid buffer between proppant stages of not more than 10 tons is used based on 1.5 to 5 m ³ per 1 ton of proppant. The final proppant concentration is not more than 250 kg / m ³ , to reduce sedimentation and increase the conductivity of the crack, a fracturing fluid devoid of a gelling agent is used, a surfactant is added to the fracturing fluid to prevent precipitation of the proppant in the sediment during pumping support fluid flow rate of 5.0 m ³ / min and more.

Claims (1)

A method for developing a low-permeability oil reservoir, including injecting a working agent through injection wells, extracting oil through producing wells and conducting hydraulic fracturing in wells, characterized in that in low-permeability reservoirs having a permeability of less than 1 mD, the fracture is predominantly developed in length, for which carry out the main hydraulic fracturing process using a small fraction of proppant with a dimension of 30/60 mesh or less, using fluid buffers between proppant stages not more its rate of 10 m from 1.5 to 5 m ³ per 1 ton of proppant with a final concentration of proppant is not more than 250 kg / m ³ is used fracturing fluid gellant lacking and containing a surfactant, and maintained under pumping flow rate 5.0 m ³ / min and more.