RU2558058C1 - Interval hydraulic fracturing of carbonate formation in horizontal wellbore with bottom water - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: method includes drilling of horizontal wellbore in productive stratum with cementing of casing string, lowering of perforator to the horizontal wellbore at the pipe string and performance of perforated openings in the horizontal wellbore with azimuth upward direction, lowering of the pipe string with a packer to the well, setting of the packer, pumping of breakdown agent through the pipe string and formation of hydraulic cracks in the horizontal wellbore. The horizontal wellbore in productive stratum is drilled in parallel to direction of the maximum stress in rocks. Then perforator is lowered to the horizontal wellbore at coil tubing (CT) and perforation openings are made in the horizontal wellbore in one row, then CT is pulled out from the well with perforator, the perforator is dismounted and the CT is equipped from below with an inflatable packer. CT is lowered up to the bottomhole by axial movement of CT from the mouth to the bottom to distance of 50m with speed rate of 0.5m/min and simultaneous pumping of viscous gel with density exceeding density of water in volume sufficient for filling with the following acid viscoelastic composite, wt %: gelling agent 12.0; 22% hydrochloric acid (HCl) 22.5; fresh water 65.5; in lower part of the horizontal wellbore section per 2/3 of the horizontal wellbore diameter. The inflatable parker is set, hydraulic fracturing is performed by pumping the following thickened acid composite, wt %: gelling agent 12.0; 22% hydrochloric acid (HCl) 68.0; fresh water 20.0; with further filling with gelling fluid with decomposer of perforated openings in the upper part of the horizontal wellbore section per 1/3 of the horizontal wellbore diameter. The inflatable packer releasing is made; then hydraulic fracturing is performed in the remaining part of the horizontal wellbore; to this end the above operations are repeated starting from the CT axial movement from the mouth to the bottom up to filling of the treated interval with gelling fluid with decomposer. Upon completion of interval hydraulic fracturing the well is developed by swabbing, at that viscoelastic gel is diluted at contact with stratal fluids and unblocks drained parts of the horizontal wellbore and then removed from the well.EFFECT: increased efficiency of crack development, improved quality of hydraulic fracturing, reduced time for hydraulic fracturing.5 dwg

Description

The invention relates to the oil industry, in particular to methods for developing oil fields by horizontal wells using hydraulic fracturing primarily in carbonate rocks with bottom water.

A known method of multiple hydraulic fracturing in a horizontal wellbore (patent RU No. 2472926, IPC E21B 43/267, publ. 01/20/2013, bull. No. 2), including the descent of the packer into the well on a pipe string with its subsequent landing in the well, formation cracks opposite the filters in series at different intervals of the reservoir, opened by a horizontal wellbore, by supplying hydraulic fracturing fluid through a filter installed in each of the parts of the horizontal wellbore corresponding to each of these intervals with isolation of the remaining parts In this case, determine the direction of the horizontal trunk relative to the direction of the minimum main stress, then isolate the interval subject to hydraulic fracturing (Fracturing) from the remaining sections of the horizontal trunk by planting twin packers, then open the valve located inside the pipe string between the twin packers opposite the filter, if the direction of the horizontal trunk is parallel to the direction of the minimum principal stress, the hydraulic fracturing is carried out by injection of a fracturing fluid spine with the formation of transverse cracks relative to the horizontal trunk, followed by fastening of transverse cracks by injection of fluid with aluminosilicate proppant, with a gradual increase in its fraction from 20/40 mesh. up to 16/30 mesh., if the direction of the horizontal well is perpendicular to the direction of the minimum principal stress, then hydraulic fracturing is carried out by injection of a fracturing fluid with the formation of horizontal cracks with respect to the horizontal well, followed by horizontal cracking by pumping with lightweight proppant with a fraction of 20/40 mesh, at the end The hydraulic fracturing of a well is closed for a technological pause for 0.5 h, after which an adjustable nozzle is installed on the wellhead at the wellhead and the spent prop antenna fluid from the reservoir along the pipe string at the wellhead until the valve closes, while adjusting the nozzle during the spout, ensure that the pressure in the pipe string is 2-3 MPa less than the pressure when opening the well after a technological pause, after which the packer is unpacked and the pipe string is moved to another part of the horizontal wellbore, and the above hydraulic fracturing process in the horizontal wellbore is repeated depending on the number of horizontal wellbore intervals equipped with filters in azlichnyh its parts.

The disadvantages of the method are:

- firstly, the low efficiency of the method, due to the attachment of longitudinal and transverse cracks formed from the horizontal wellbore with proppant, therefore, during subsequent production from transverse and especially longitudinal cracks formed in the reservoir, proppant grains will exit into the horizontal wellbore, which will lead to the closure of cracks and a sharp decrease in the throughput capacity of fractures in the near-wellbore zone;

- secondly, the long duration of the method, associated with multiple hydraulic fracturing in a horizontal wellbore and hydromechanical slotted perforation of the casing string (liner) by lowering the perforator on the pipe string;

- thirdly, the large material and financial costs of implementing the method associated with casing a horizontal shaft with a casing (or liner) followed by cementing it.

Also known is a method of multiple hydraulic fracturing of a horizontal wellbore (patent RU No. 2362010, IPC E21B 43/267, publ. 07/20/2009, bull. No. 20), including the formation of cracks sequentially at different intervals of the reservoir, opened by a horizontal wellbore, by installing packer, hydraulic fracturing fluid supply through a filter installed in each of the parts of the horizontal wellbore corresponding to each of these intervals with isolation of its remaining parts, the packer is installed in the vertical wellbore We initially carry out hydraulic fracturing in the interval of the formation with the highest permeability by supplying a proppant carrier fluid with the installation of a “head” proppant plug blocking the corresponding section of the horizontal barrel between the filters with the specified insulation by forming a polymer crust on the corresponding filters, repeat the above operation on 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, p By the way, the polymer crust is formed by feeding the chemical composition into the well, 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.

The disadvantages of the method are:

- firstly, the low efficiency of the implementation of the method in carbonate reservoirs, due to the attachment of fractures with proppant, therefore, during subsequent production, proppant will come out of the fixed fractures, which will lead to closure of the fractures and a sharp decrease in the throughput of the fractures in the borehole zone;

- secondly, the low reliability of the implementation of the method, due to the fact that when removing the polymer crust with a liquid-solvent, the gel destroyer will “go away” to that filter interval where the polymer crust will be removed earlier, while the polymer crust will be removed at other filter intervals only partially, possibly clogging the filter holes or not completely removed, which will impede the flow of oil into the horizontal wellbore during subsequent operation and reduce the effectiveness of hydraulic fracturing;

- thirdly, the long duration of hydraulic fracturing, due to the fact that the packer is installed in the vertical wellbore, and hydraulic fracturing is carried out at intervals depending on the permeability of the formation, so if it is necessary to conduct hydraulic fracturing through the filter in the middle of the horizontal wellbore, it is necessary to isolate the filter parts in " heel ”and“ toe ”by injection of the chemical composition with the formation of a polymer crust, conduct hydraulic fracturing in the middle part of the filter, followed by removal of the polymer composition from the part of the filters in the“ heel ”and“ nose e "horizontal wellbore. Subsequently, this process is repeated for another filter section of a horizontal wellbore having a high permeability.

The closest in technical essence is the method of hydraulic fracturing in a horizontal wellbore (patent RU No. 2401942, IPC E21B 43/26, publ. 10/20/2010, bull. No. 29), including drilling a horizontal wellbore, drilling a horizontal wellbore in the oil-saturated part productive formation with cementing the annular space between the casing string and rock of the productive formation of the horizontal wellbore, perforation of the casing string, descent of the pipe string with the packer into the well, perforation and crack formation Hydraulic fracturing by injection of fracturing fluid in a horizontal wellbore sequentially, starting from the end farthest from the axis of the vertical wellbore communicating the horizontal wellbore with the reservoir, while during the next hydraulic fracturing, each perforated section through which hydraulic fracturing is performed is isolated from the rest of the column packers, while drilling a horizontal wellbore is carried out in the oil-saturated part of the reservoir with cementing the annular space between garden string and rock of the horizontal wellbore, and the perforation of the horizontal wellbore, azimuthally oriented by the intervals, is performed using a hydromechanical slotted perforator, lowered into the well on the pipe string in one round trip, then the packers are lowered, cutting off each interval equal to the length formed gap from the rest of the string, and hydraulic fracturing in the horizontal part of the wellbore is performed sequentially, starting from the farthest from the axis of the vertical wellbore oriented section of the horizontal wellbore, and the hydromechanical gap perforation is performed bilaterally, forming slots that are 180 ° relative to each other in a vertical plane opposite each other, relative to the axis of the horizontal wellbore in one interval, or perform one-sided hydromechanical gap perforation with a rotation of 180 ° in the vertical plane relative to the axis of the horizontal wellbore, alternately through each subsequent interval in a checkerboard pattern, are equal the length of the slit-formed, or when a small thickness of the productive formation and the presence of active bottom water produce hydromechanical sided perforation slit seam in the direction of the roof.

The disadvantages of this method:

- firstly, the uncontrolled development of the fracture in height, due to the fact that the fracture created during the hydraulic fracturing process develops uncontrollably, since the horizontal trunk in the formation is drilled without taking into account the direction of the main stress in the formation, in addition, in the presence of bottom water, a randomly developing crack with it is highly likely to lead to a breakthrough of water from the water-producing formation into the horizontal wellbore and the result of hydraulic fracturing will become flooding of the horizontal wellbore;

- secondly, low efficiency of fracture development during hydraulic fracturing due to high hydraulic resistances in perforated holes of a cased hole, high hydraulic fracturing pressures created at the wellhead during hydraulic fracturing;

- thirdly, the low quality of hydraulic fracturing associated with the proppant exit that secures the hydraulic fracture in the horizontal wellbore and, as a result, closure of the fracture;

- fourthly, the duration of hydraulic fracturing associated with the entire cycle of the process of interval hydraulic fracturing in a horizontal wellbore using only a string of tubing;

- fifthly, high financial costs in the implementation of the method, due to the casing of the horizontal wellbore with its shank, followed by its cementing in the horizontal wellbore.

The technical objectives of the proposal are to create a method that allows to exclude the development of a fracture during hydraulic fracturing in the direction of a water-developing formation with bottom water, as well as increasing the efficiency and reliability of hydraulic fracturing by eliminating proppant filling of the fracture by etching the crack with thickened acid, reducing the duration and reducing financial costs for implementation way.

The stated technical problems are solved by the method of interval hydraulic fracturing of a carbonate formation in a horizontal wellbore with bottom water, including drilling a horizontal wellbore in a producing formation with cementing the annular space between the casing and rock, lowering it into a horizontal wellbore on a string of perforator pipes and making perforations in the horizontal wellbore, azimuthally directed upward, the descent of the pipe string with the packer into the well, p your batch packer download through the pipe string fracturing fluid and formation of cracks in hydraulic fracturing horizontal wellbore.

What is new is that the horizontal wellbore in the reservoir is drilled parallel to the direction of maximum rock stress, then a horizontal drill is lowered into the horizontal wellbore on a string of flexible pipes - a perforator and perforations are made in a horizontal wellbore in a row, a GT column with a perforator is removed from wells, dismantle the perforator, then equip the bottom of the GT column with an inflatable packer, lower the GT column to the bottom by axial movement of the GT column from the mouth to the bottom by a distance of 50 m from awn 0.5 m / min and a simultaneous injection of a viscous gel having a density greater than the density of water, in a volume as to fill a viscoelastic acid composition,% wt .:

 gelling agent 12.0  22% hydrochloric acid (HCl) 22.5  fresh water 65.5

the lower part of the cross section of the horizontal wellbore by 2/3 of the diameter of the horizontal well, an inflatable packer is planted, hydraulic fracturing is performed by injection of a thickened acid composition,% wt .:

 gelling agent 12.0  22% hydrochloric acid (HCl) 68.0  fresh water 20,0

followed by filling the perforated holes and the upper section of the horizontal wellbore with 1/3 of the diameter of the horizontal wellbore with gelled liquid with a breaker, unpack the inflatable packer, then perform hydraulic fracturing in the remaining part of the horizontal well, for this purpose, the above operations are repeated starting from the axial movement of the GT string from the mouth to the face to the filling of the treated interval with gelled liquid with a destructor, at the end of the interval fracturing, mastering with Vazhiny swabbing, wherein the viscoelastic gel is liquefied by contact with formation fluids and releases drained horizontal sections of the wellbore and retrieved from the well.

The essence of the proposal lies in the fact that the drilling of a horizontal wellbore in the reservoir is carried out taking into account the main stress of rocks, and before hydraulic fracturing in a horizontal wellbore with bottom water in the form of a water-producing formation, a viscoelastic gel is preliminarily injected into the horizontal well section to be fractured, which blocks the drained sections of the horizontal trunk at the bottom. The fulfillment of these two conditions allows to prevent the development of cracks down in height in the direction of the water-developing formation during hydraulic fracturing.

The use of thickened acid in the process of multiple hydraulic fracturing provides a deeper penetration of acid into the formation due to blocking by the gel of highly permeable drained sections of the formation, while the rock is etched with acid with minimal acid filtration into the rock, thereby increasing the efficiency of crack development.

In figures 1, 2, 4, 5 schematically and sequentially depicted the proposed method.

In FIG. 3 schematically shows a section of a horizontal shaft with a perforation hole.

The method is implemented as follows.

The horizontal wellbore 1 (see Fig. 1) of the well 2 in the producing formation 3 in the presence of plantar water in the form of a water-developing formation 4 is drilled parallel to the direction of the maximum stress - σ _max . Lower the casing 5 into the well to the roof 6 of the reservoir 3 and cement the annular space 7 between the casing and the rock.

Then, a perforator (not shown in FIGS. 1, 2, 3, 4 and 5) is lowered into a horizontal wellbore 1 of a well 2 on a string of flexible pipes (GT) 8 (see / FIG. 2) and perforations 9 are made (see FIG. 1 and 3) in a horizontal wellbore in a single row (Fig. 1, 2, 4, 5 shown conditionally) in the direction of the roof 6 (see Fig. 1) of the productive formation 3.

As the perforator, the PK114KL ORION perforating system with a cumulative charge ORION102-02 is used, which provides a penetration depth of 1 = 1200 mm with hole diameters d = 10 mm (see Fig. 3), manufactured by ZAO Vzryvgeoservis (Republic of Bashkortostan, g. Neftekamsk, ul.Magistralnaya, 19).

Perforation holes 9, made in the horizontal wellbore 1 of the well 2, make it possible to achieve the necessary geometry of the fracture created during subsequent hydraulic fracturing.

The GT 8 column with a perforator is removed from the well, the perforator is dismantled, after which the GT 8 column is equipped with an inflatable packer 10 from the bottom, the GT 8 column is lowered to the bottom 11, for example, 300 m of horizontal wellbore 1 of well 2.

Produce axial movement HT column 8 from the mouth to the face at a distance of 50 m at a speed of 0.5 m / min and a simultaneous injection of viscous gel 12 with a density (ρ _g = 1170 kg / m ^3), a greater density of water (ρ = 1000 kg _in / m ³ ), in a volume that ensures filling with an acid viscoelastic composition.

An acid viscoelastic composition is preliminarily prepared in a container (not shown in FIGS. 1, 2, 3, 4 and 5) at the wellhead 2 in the following ratio per 1 m,% wt .:

 gelling agent 12.0  22% hydrochloric acid (HCl) 22.5  fresh water 65, 5

the lower part of the cross section of the horizontal wellbore by 2/3 of the diameter (see Fig. 2) of the horizontal wellbore 1 of the well 2. Then the inflatable packer 10 is planted and hydraulic fracturing is performed by injection of the thickened acid composition in the interval L = 50 m, i.e. in the cutoff range of 250-300 m,% wt .:

 gelling agent 12.0  22% hydrochloric acid (HCl) 68.0  fresh water 20,0

followed by filling the gelled liquid with the destructor 13 perforations 9 (see Fig. 2 and 3) and the upper part of the cross section of the horizontal wellbore 1 by 2 1/3 of the diameter of the horizontal wellbore 1.

Drilling a horizontal wellbore 1 of a well 2 in a productive formation 3 parallel to the direction of maximum stress - σ _max and pre-injecting a viscoelastic gel into the horizontal wellbore section 1, which blocks the drained sections of the horizontal wellbore in the lower part, can prevent the development of cracks down in height direction of the water developing formation 4 in the process of hydraulic fracturing.

The inflatable packer 10 is unpacked, then interval hydraulic fractures of the reservoir 4 are made in the remaining part of the horizontal barrel 1, for this, the above operations are repeated starting from the axial movement of the GT string 8 from the bottom 11 (see Fig. 3) to the wellhead 2 until filling the treated interval with gelled liquid with a destructor.

Upon completion of the interval hydraulic fracturing throughout the entire horizontal wellbore 1 of the well 2, the well is developed by swabbing (not shown in Figs. 1, 2, 3, 4, 5).

During swabbing, the viscoelastic gel is diluted upon contact with the formation fluids, releases the drained sections of the horizontal wellbore and is removed from the well.

The efficiency of the development of the fracture that is created in the open horizontal wellbore 1 of the well 2 is increased, as a result of which the hydraulic resistances in the perforation holes 9 of the horizontal wellbore 1 are reduced and the hydraulic fracturing pressures created at the wellhead 2 during the hydraulic fracturing process are reduced.

The quality of hydraulic fracturing is increased, due to the fact that the hydraulic fracture is etched with acid, and is not fixed with a proppant, which eliminates the rapid closure of the fracture.

The duration of hydraulic fracturing is reduced, associated with the entire cycle of the technological process of conducting interval hydraulic fracturing in a horizontal well using a string of flexible pipes 8.

Reduced financial costs when implementing the method by eliminating the casing of the horizontal shaft 1 of the well 2 and its subsequent cementing.

The proposed method of interval hydraulic fracturing of a carbonate formation in a horizontal wellbore with bottom water allows:

- to exclude the development of hydraulic fractures in the direction of the aquifer;

- increase the efficiency of crack development;

- improve the quality of hydraulic fracturing;

- reduce the duration of hydraulic fracturing;

- reduce financial costs for the implementation of the method.

Claims (1)

A method of interval hydraulic fracturing of a carbonate formation in a horizontal wellbore with bottom water, comprising drilling a horizontal wellbore in a producing formation with cementing the annulus between the casing and rock, lowering into a horizontal wellbore on a string of perforator pipes and making perforations in a horizontal wellbore directed azimuthally upward, lowering the pipe string with the packer into the well, landing the packer, pumping fluid along the pipe string the type of fracture and the formation of hydraulic fractures in the horizontal wellbore, characterized in that the horizontal wellbore in the productive formation is drilled parallel to the direction of the maximum stress of the rocks, then a perforator is lowered into the horizontal wellbore on a string of flexible pipes - apertures and perforations are made in a horizontal the borehole in one row, remove the GT column with a perforator from the well, dismantle the perforator, and then equip the bottom of the GT column with an inflatable packer, with OSCAL HT column to bottom axial movement HT columns from the mouth to the face at a distance of 50 m at a speed of 0.5 m / min and a simultaneous injection of a viscous gel having a density greater than the density of water, in a volume as to fill a viscoelastic acid composition,% wt .:
gelling agent 12.0 22% hydrochloric acid (HCl) 22.5 fresh water 65.5
the lower part of the cross section of the horizontal wellbore by 2/3 of the diameter of the horizontal well, an inflatable packer is planted, hydraulic fracturing is performed by injection of a thickened acid composition,% wt .:
gelling agent 12.0 22% hydrochloric acid (HCl) 68.0 fresh water 20,0
followed by filling the perforated holes and the upper section of the horizontal wellbore with 1/3 of the diameter of the horizontal wellbore with gelled liquid with a breaker, unpack the inflatable packer, then perform hydraulic fracturing in the remaining part of the horizontal well, for this purpose, the above operations are repeated starting from the axial movement of the GT string from the mouth to the face to the filling of the treated interval with gelled liquid with a destructor, at the end of the interval fracturing, mastering with Vazhiny swabbing, wherein the viscoelastic gel is liquefied by contact with formation fluids and releases drained horizontal sections of the wellbore and retrieved from the well.

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