RU2096603C1 - Method for hydraulic fracturing of bed - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: this is aimed at stimulating liquid inflow to well due to formation of fractures in productive bed. It permits application of simple liquids for delivery of propping agent into fissures and prevents formation of obstacles to oil filtration. According to method, hydraulic fracturing of bed is effected by injection of fracturing liquid with propping agent into bed. Used as this agent are gas-filled granules. Their density is close to density of fracturing liquid. This allows for keeping propping agent in suspended state in fracturing liquid. Used as this liquid is one compatible with rock and bed fluid, for example water or oil. EFFECT: high efficiency.

Description

 The invention relates to the field of oil 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 hydraulic fracturing, including the injection into the reservoir of a fracturing fluid with a proppant (fixing) agent at a pressure that opens natural or the formation of artificial cracks, and filling these cracks with fixing material [1]
Granular materials are used as a proppant: sand, plastic balls, corundum, agglomerated bauxite. Abroad, it is known to use alumina or zirconium, cordierite, and ceramics [2] In this case, the carrier fluid must keep the proppant in suspension, which is achieved by increasing its viscosity, so that the viscosity of the liquid is kept to 1 Pa • s to retain sand. In addition, the fluid should be poorly filtered through the surface of the cracks and should be compatible with the rock and fluids so as not to impede the filtration of oil. As a result, the cost of fracturing fluid is the bulk of the cost of hydraulic fracturing.

 The technical problem solved by the invention is the development of a more economical method, the implementation of which does not require the preparation of complex fluids for the delivery of proppant to cracks.

 To solve the problem with hydraulic fracturing, which includes injecting fracturing fluid with a proppant into the reservoir, granules of gas-filled material are used as the latter, the density of which is close to the density of the fracturing fluid of water or oil.

 Aluminosilicate and polymer gas-filled microspheres with a size of 150.500 microns were tested at a facility simulating fractures in a formation. The installation allows you to create a predetermined skeletal pressure in the backfill and pump the fluid at a given pumping pressure.

At a skeletal pressure of 45 MPa, the permeability of the filling of gas-filled microspheres was 0.5.0.7 D, which is significantly higher than the natural permeability of the rocks. According to the results of determining the density, 25. 30% of the microspheres were destroyed. Their initial density was 600 kg / m ³ , and after the destruction of 2300 kg / m ³ .

 Tests have shown the suitability of gas-filled microspheres for fixing cracks. At the same time, the delivery of microspheres into the fracture can be carried out with water or oil without the use of any additives.

 At the well, the method is implemented according to one of the known technological schemes, single, multiple or interval hydraulic fracturing.

 To form cracks in the formation, water is pumped into it under an injection pressure that ensures the opening or formation of cracks in the formation, and in an amount calculated depending on the width of the opening of the cracks and their length. After that, water with gas-filled aluminosilicate microspheres in an amount sufficient to fill the cracks in the formation is pumped into the formation. Selling microspheres into the well is carried out with water.

 At the end of hydraulic fracturing and removal of excess pressure, the well is put into operation.

Claims (1)

 A method of hydraulic fracturing, which includes injecting fracturing fluid into the formation with a proppant, characterized in that gas proppant granules are used as the proppant, the density of which is close to the density of the fracturing fluid and allows the proppant to be held in suspension in the fracturing fluid, as the latter, a fluid is used that is compatible with the formation rock and fluid, such as water or oil.