SU1061549A1 - Method of hydraulic seam fracture - Google Patents

Description

The invention relates to the field of oil and gas production, in particular, to the technique of conducting hydraulic fracturing of oil and gas producing formations and wells.

A known method of hydraulic fracturing, which provides for cyclic injection into the reservoir through a well under pressure of sand with an increase in the size of its fractions after each cycle and pressure release at the wellhead after each cycle.

However, the known method does not have an effective effect due to the fact that significant sand formation occurs in the bottomhole zone; This reduces the throughput of cracks.

Closest to the invention) is a method of hydraulic fracturing by pumping ferromagnetic fluid into the formation under pressure.

The disadvantage of this method is the need to magnetize ferromagnets.

nitrate material, which significantly complicates the fracturing process. In addition, the magnetization of the ferromagnetic material occurs above the interval to be intensified, which leads to a loss of magnetic properties during the passage of the liquid Oto to the working zone.

A significant disadvantage of the method is the impossibility of ensuring a high-speed injection rate of fluid due to significant hydraulic pores and ensuring that the flow of magnetized ferromagnetic material is directed relative to the fracture plane.

All this ultimately significantly reduces the effectiveness of fracturing.

The purpose of the invention is to intensify the fracturing process by producing ferromagnetic fluid directly in the well.

The goal is achieved by the fact that in the method of hydraulic fracturing by pumping ferromagnetic

Claims (1)

(54X57) METHOD FOR HYDRAULIC FOLTING OF THE FORMATION by injection into the formation under pressure of a ferromagnetic fluid, characterized in that, in order to intensify the process by obtaining ferromagnetic fluid directly in the well, high pressure ferromagnetic fluid is obtained by exploding a conductor in a discharge circuit placed in the working fluid at a voltage of 50-60 kV, capacitance 0.5-1 μF, inductance of the discharge circuit 0.05-0.1 μG.