RU2170818C2 - Method of hydraulic fracturing of formation - Google Patents

Abstract

FIELD: development of oil, gas and gas-condensate deposits with bottom water, particularly, deposits with deteriorated properties and deposits at late stage of development. SUBSTANCE: method provides for formation of fracture of formation with bottom water by hydraulic fracturing. Lowered into tubing and below it are flexible pipes for pumping of 555 in mixture with water-isolating cement in amount enough for filling with mixture of fracture lower part up to level above water-oil contact and filling of fracture part below oil-saturated zone. In this case, simultaneously supplied through tubing is carrying liquid with 555 in amount enough for filling the upper part of vertical fracture. EFFECT: increased waterless period of well operation after hydraulic fracturing of formation with bottom water. 1 dwg

Description

 The invention relates to the field of development of oil, gas and gas condensate fields with bottom water, in particular to fields with impaired reservoir properties and to fields that are at a late stage of development.

 The known method of hydraulic fracturing [1] provides as a proppant to use sodium methacilate, which turns into a gel upon contact with water. As a result, part of the crack located in the zone of bottom water becomes impermeable, which prevents the rapid breakthrough of water into the well. There is also known a method in which hexachlorocyclohexane is used as a proppant, which condenses upon contact with water into a solid [2].

 The disadvantage of the first method is that under the influence of rock pressure, the formed gel will be forced into the upper part of the fracture and worsen the permeability of the fracture in the oil-saturated part of the reservoir. The disadvantage of the second method is that only the lower part of the crack, which is located directly in the bottom water, becomes impenetrable. When a well is put into operation, plantar water will begin to move upward and immediately fall into that part of the fracture that was in the oil zone and from which the insulating composition was taken out into the well. As a result, the well will be quickly flooded.

 The aim of the proposed method is to increase the anhydrous period of the well after hydraulic fracturing in the formation with bottom water.

 This goal is achieved by the fact that after injection into the well of hydraulic fracturing fluid and the formation of cracks in the formation along the tubing to the lower holes of the perforation interval below the tubing, flexible pipes are lowered (1, Fig. 1) to pump a mixture of waterproofing cement composition through them with proppant in an amount that allows filling with the composition not only the part of the crack that is located in the zone of bottom water 2, but also the part of the crack located at the bottom of the oil-saturated zone 3. At the same time, sand-carrier fluid with antom for filling cracks its part situated above the oil-saturated formation zone 4. The result will be filled with cement and become impermeable not only that part of the crack, which is arranged in a water-saturated zone, but also the lower portion of the fracture, an oil-saturated area. The top of the crack will remain permeable. Thus, a significantly larger part of the fracture will be impermeable, and the permeable part will not come into contact with water, which will ensure a significant extension of the anhydrous period of the well.

 After completion of the operation, the well is washed to remove cement from the bottom of the well.

A well with a radius r _c = 0.1 m reveals an oil reservoir with bottom water. Thickness of the oil-saturated portion h _n = 5 m, the thickness of the water-filled part h _in = 5 m. Interval perforations 4 m. The distance from the lower perforation holes to the oil-water contact (OWC) of 1 m. The hole is carried fracturing in the reservoir created fracture volume V = 1 m ³ . Flexible tubing is lowered into the tubing below the perforation interval. We believe that there should be a distance of 2 meters from the oil-water contact to the permeable part of the crack. If the crack pierced the entire layer from the roof to the sole, then it is necessary to fill with cement (5 m + 2 m) / 10 m - 0.7 height of the crack and, accordingly, 0.7 volume of the crack. The cement level at the bottom of the well before and during the course of pushing it into the fracture should be 1 meter above the lower perforation holes. The tubing fluid is supplied with a sand carrier with proppant. At the same time, they create pressure in the tubing and flexible pipes for pumping the sand carrier fluid and cement with proppant into the fracture. The volume of pumping the sand fluid into the fracture is determined taking into account its partial filtration into the reservoir. After the operation is completed, the bottom hole is washed from cement.

Using the proposed method in comparison with the existing gives the following advantages:
1. the permeable part of the fracture is higher than the oil-water contact, which extends the anhydrous period of the well;
2. The ability to adjust the distance from the oil-water contact to the permeable part of the crack.

Sources of information
1. Komisarov A.I., Tosunov E.M. The method of hydraulic fracturing. A.S. N 2470734 / 22-03, publ. 12/15/79, bull. N 46. (analog).

 2. US patent N 2896717, CL. 166-33 (analog).

Claims (1)

 Method of hydraulic fracturing, providing for the formation of hydraulic fractures in the formation with plantar water, characterized in that flexible pipes are lowered into the tubing to the lower holes of the perforation interval to pump proppant mixed with water-insulating cement in an amount sufficient to fill with a mixture of the lower part of the crack to a level above the oil-water contact with filling part of the crack in the zone of bottom water in the part of the crack at the bottom of the oil-saturated zone, while simultaneously pumping sand-carrier fluid with proppant in an amount sufficient to fill the upper part of the vertical crack is supplied to the pipes.