RU2362010C1 - Procedure for multiple hydraulic fracturing of horizontal borehole of well - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: invention refers to oil and gas industry, particularly, to hydraulic fracturing of horizontal borehole of well. The procedure of multiple hydraulic fracturing of horizontal borehole of well consists in generating fractures successively in various intervals of a producer exposed with the horizontal borehole of the well by means of assembling a packer, and in pumping fluid of hydraulic fracturing via a filter installed in each part of the horizontal borehole corresponding to each of these intervals; also the rest parts are insulated; notably, the packer is installed in the vertical borehole of the well; initially hydraulic fracturing is carried out in the interval of the reservoir with the highest penetrability by supplying fluid-carrier with proplant; a "head" of the proplant plug is fixed and it shuts off a corresponding section of the horizontal borehole between filters; the corresponding filters are insulated by forming a polymer crust on them; the said operation is repeated on each of the rest intervals successively according to the degree of their penetrability drop; preliminary crust is removed off the filter corresponding to this interval; also polymer crust is formed by means of supplying a composition into well; the said composition has the following ratio of components, wt %: gel former-bio-polymer 0.5-10, potassium chloride -0.5-12, biocide - 0.1-5, demulsifier 0.1-10, cross-linking agent - 0.1-1.5, water - the rest; the crust is removed with liquid-solvent, where contents of gel destroyer is 0.6-1.2 kg/m³ of water.

EFFECT: simplification and reduced duration of process.

1 ex, 2 dwg

Description

The invention relates to the oil and gas industry, in particular to a method for hydraulic fracturing in horizontal boreholes of productive formations.

A known method of multiple hydraulic fractures in horizontal wells, involving the descent into horizontal trunks of filters or perforators in the same vertical plane towards each other, followed by perforation, injection under pressure of the fracturing fluid and sand carrier fluid. As a result, a vertical crack is formed between the trunks, the length of which is equal to the length of the perforated section. After this, you can conduct additional perforation of other horizontal sections (RF patent 2176021, 11/20/2001).

The closest is the method of multiple hydraulic fracturing of the horizontal wellbore, figure 1, in which to break the formation is lowered into the well (1) on tubing (9) tubing packer (8), which isolates the filter (4) installed in the wellbore (2) including the horizontal well, at the required hydraulic fracturing location farthest from the vertical wellbore, from the rest of the well, and carry out hydraulic fracturing, forming a crack (7) in interval 1. Then, a packer is installed in the same wellbore before filter ohm (5), located closer to the vertical shaft than the above filter (4), and carry out hydraulic fracturing of interval 2, forming the next crack (10), while the filter (4) is blocked by a proppant plug. The above operations are repeated even when interval 3 is broken through the filter (6), successively approaching the vertical well (Basarygin Yu.N. et al. Study of factors and implementation of measures for the long-term operation of oil and gas wells. Treatment of the bottom-hole formation zone with chemical methods and physical methods , Krasnodar, "Enlightenment-South", book 1, 2004, p.173).

The disadvantages of the known methods are the need to use technical means - insulating packers, which leads to the duration of the multiple hydraulic fracturing process, its complexity, many tripping operations to prepare the barrel for fracture and, as a result, the high cost of such well operations.

The technical task of the claimed invention is the elimination of these disadvantages.

The problem is solved in that in the method of multiple hydraulic fracturing of a horizontal wellbore, including the formation of cracks successively at different intervals of the reservoir, opened by a horizontal wellbore, by installing a packer, supplying hydraulic fracturing fluid through a filter installed in each of the horizontal parts corresponding to each of these intervals the barrel with the isolation of its remaining parts, the installation of the packer is carried out in a vertical wellbore, initially fracturing is carried out in the interval of the formation with the highest permeability, the proppant carrier fluid is supplied with the installation of the “head” of the proppant plug blocking the corresponding section of the horizontal wellbore between the filters, with the indicated insulation by forming a polymer crust on the corresponding filters, repeat this operation at each of the remaining intervals sequentially by the degree of reduction of their permeability with preliminary removal of the crust from the filter corresponding to this interval, moreover, the polymer crust is formed by the flow rate of the composition into the well, wt.%: gelling agent-biopolymer 0.5-10, potassium chloride - 0.5-12, biocide - 0.1-5, demulsifier - 0.1-10, crosslinker - 0.1- 1.5, water - the rest, and its removal is carried out with a solvent liquid with a gel breaker content of 0.6-1.2 kg / m ^{3 of} water.

An example embodiment of the invention.

The following materials are used in the liquid to form a polymer crust:

- gelling agent-biopolymer - guar, xanthan gum, their derivatives, for example hydroxyalkyl guar, carboxyalkyl guar,

- potassium chloride KCl,

- biocide - any used for biopolymers, for example sulfacid-10A, alkylbenzothiazoline and metal complexes of cyclic hydroxyacids, silver on an organic and inorganic carrier,

- demulsifier - oil-soluble surfactants, for example NE-201,

- a crosslinker - aldehydes, phenols, ethers, for example formaldehyde, glyoxal, polyoxyethylene, salts of polyvalent metals - acetates, citrates, boric acid, other boron compounds,

- technical, produced water.

Figure 2 shows a diagram corresponding to the claimed method.

In the vertical part of the well (1), a packer (8) is installed, lowered on a working tool - tubing (9).

An important prerequisite for the implementation of this method is to take into account the difference in permeability coefficients - K _{PR of} different intervals of the formation (3), opened by a horizontal wellbore (2).

The permeability coefficients for each of the intervals of the productive formation are preliminarily determined along the length of the horizontal wellbore opening the formation. Establish a relationship between them.

For example, K _PR1 > K _PR2 > K _PR3

With this distribution of permeability, the fracturing fluid initially takes the 1st interval of the formation through a filter (4). To isolate the rest - the 2nd and 3rd intervals of the reservoir, i.e. their filters (5) and (6), respectively, a liquid is formed into the well, forming a polymer crust in the places of filtration through these filters. The liquid has a composition, wt.%: Gelling agent - guar 5.0, biocide - sulfacid-10A - 2, demulsifier - NE - 201 - 5.0, potassium chloride - 3.0, crosslinker - iron acetate - 2.0, water 83.0. Carry out exposure to form a crust, then directly fracture the 1st interval of the formation through an appropriate filter (4), for which purpose, a carrier fluid with proppant size 0.6299-2.6759 mm is pumped into the well using a standard fracturing technique (7) ) Selling of this composition is carried out in such a way that the “head” of the proppant plug (11) is installed between the filters (4) and (5), in the horizontal wellbore, point A. Moreover, the selling volume is equal to the sum of the tubing and filter volumes from the packer to point A and wellhead piping, m ³ . Then, in order to prepare for hydraulic fracturing of the 2nd interval of the formation, the polymer crust on this filter is dissolved by injection of a solvent through the corresponding filter (5). For this, a water-based solvent liquid is injected with a gel breaker in an amount of 1 kg / m ³ , exposure is performed to break the crust due to the reaction of the solvent liquid with it for 3-5 minutes, after which the hydraulic fracturing operation is repeated - the above is pumped carrier fluid with proppant and form a crack (10) in the 2nd interval of the reservoir. Selling the composition is carried out based on the installation of the “head” of the proppant plug (12) at point B of the horizontal trunk (2). In this case, the sales volume is equal to the sum of the volumes of the tubing, the filter from the packer to point B and the wellhead piping, m ³ .

Claims (1)

The method of multiple hydraulic fracturing of a horizontal wellbore, including the formation of cracks successively at various intervals of the reservoir, opened by a horizontal wellbore, by installing a packer, supplying hydraulic fracturing fluid through a filter installed in each of the intervals of the horizontal wellbore with isolation of the remaining parts of it characterized in that the installation of the packer is carried out in a vertical wellbore, initially fracturing was carried out in the interval of the formation with the highest permeability, the flow of the carrier fluid with proppant with the installation of the “head” of the proppant plug blocking the corresponding section of the horizontal wellbore between the filters, with the indicated isolation by forming a polymer crust on the corresponding filters, repeat this operation at each of the remaining intervals in series according to the degree of reduction of their permeability with preliminary removal of the crust from the filter corresponding to this interval, moreover, the polymer crust is formed by supply to the well of the composition, wt.%:
biopolymer 0.5-10 potassium chloride 0.5-12 biocide 0.1-5 demulsifier 0,1-10 stapler 0.1-1.5 water rest,
and its removal is carried out with a solvent liquid with a content of a gel breaker of 0.6-1.2 kg / m ^{3 of} water.

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