RU2651541C2 - Method of hydraulic fracturing - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method of hydraulic fracturing involves the injection of a fracturing fluid and a proppant into the formation, with fine dispersed ferromagnets being used as a proppant, and additional fracture of the fractures by reinforcing the proppant magnetization is effected by supplying the source of the electromagnetic field to the bottom-hole zone.

EFFECT: increase the permeability of the formation.

1 cl

Description

The invention relates to the field of hydrocarbon production and can be used to intensify the flow of fluid to the well due to the formation of cracks in the reservoir.

A known method of fracturing, including the injection into the bottomhole zone of the fracturing fluid and sand carrier fluid, and before injecting the sand carrier fluid into the reservoir, an aqueous suspension of hardener and silica sand is pumped (Patent SU No. 1744245, E21B 43/25, publ. 30.06.1992).

Common features of the known and proposed methods are:

- injection of fracturing fluid into the formation;

- injection of liquid with a proppant (sand-carrier fluid).

The main disadvantage of this method is the use of an aqueous hardener suspension based on calcium, aluminum and iron oxides before injection of sand carrier fluid, which contributes to contamination of the bottomhole zone. Such a suspension has poor filterability, in addition to hardening, it will prevent the proppant from penetrating into the fracture cracks, which thereby leads to a decrease in fluid flow, i.e. to reduce the efficiency of the hydrocarbon production process.

The closest in technical essence and the achieved result to the proposed one is a method of hydraulic fracturing, which includes injecting fracturing fluid into the reservoir with a proppant, gas-filled granules being used as proppant, the density of which is close to the density of the fracturing fluid and makes it possible to keep the proppant in suspension the state in the fracturing fluid, while the fluid used is the one that is compatible with the formation rock and fluid, for example er water or oil (Patent RU No. 2096603, E21B 43/26, publ. 20.11.1997).

A common feature of the known and proposed method is:

- injection of fracturing fluid into the formation with a proppant.

The main disadvantage of this method is the use of gas-filled granules as a proppant, after the destruction of which and gas evolution therefrom, dispersed aluminosilicate and polymer residues remain, clogging the pores of the formation and reducing its permeability for the passage of fluid, which reduces the efficiency of the hydrocarbon production process.

The problem solved by the invention is to increase the efficiency of the hydrocarbon production process.

The technical result is to increase the permeability of the formation during hydraulic fracturing.

The technical result is achieved by the fact that finely dispersed ferromagnets are used as a proppant, and additional wedging of cracks by enhancing the magnetization of the proppant is carried out by supplying an electromagnetic field source to the bottomhole zone.

The technique, in which finely dispersed ferromagnets (Fe, Co, Ni, Fe ₃ Al, Ni ₃ Mn, etc.) is used as a proppant, leads to reliable fixation of fracture fractures, which is caused by high strength characteristics and magnetic properties of ferromagnets.

The technical method, which consists in the fact that the spontaneous magnetization of ferromagnets is enhanced by the forces of deformation when the pressure decreases, contributing to the additional wedging of cracks to create a conductive channel, leads to an increase in the permeability of the formation during fracturing.

The technical method, which involves the use of ferromagnets, makes it possible to wedge macro- and microcracks, choosing the optimal effect on the solid rock of the formation through the use of individual physical parameters of ferromagnets.

The technique, namely, that the magnetization of ferromagnets is changed by supplying an electromagnetic field source, makes it possible to control the magnetization, i.e. control the physical parameters of ferromagnets wedging macro- and microcracks.

The authors are not known from the existing level of technology to increase the efficiency of the hydrocarbon production process by increasing the permeability of the formation during hydraulic fracturing in this way.

The method is implemented according to one of the known technological schemes: a single directional or multiple hydraulic fracturing.

To form cracks in the formation, a fracture fluid is pumped into it under an injection pressure that provides opening or formation of cracks, in an amount calculated depending on the geometry of the cracks. After that, to fix the cracks, a fluid with finely dispersed ferromagnets is pumped into the formation. An additional wedging of cracks is facilitated by the supply of an electromagnetic field source to the bottomhole zone.

Claims (1)

The method of hydraulic fracturing, which includes injecting fracturing fluid and proppant into the reservoir, characterized in that finely dispersed ferromagnets are used as the proppant, and additional proppanting of cracks by enhancing the magnetization of the proppant is carried out by supplying an electromagnetic field source to the bottom hole zone.