RU2570157C1 - Method for enhanced oil recovery for deposit penetrated by horizontal well - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: according to the method the well is operated until produced product is watered. The pipe string is run down to a horizontal well. The pipe string is reinforced in the horizontal well by injection of cement grout. Inner space of the pipe string is cleaned from residues of cement grout. Geophysical survey is performed and water-saturated intervals penetrated by the horizontal borehole are identified. Water-saturated intervals are perforated in sequence from the farthest end of the bottomhole to the wellhead. Oil is extracted until the interval is watered. The watered interval is isolated and oil is extracted from the next interval. At that for the purpose of the perforated watered interval isolation a section of the pipe string in the horizontal borehole is cut from the wellhead side in regard to the watered interval. The cut section of the pipe string is cleaned out from residues of broken cement stone. Then at the wellhead top-bottom an assembly is made consisting of a plug, water-swellable packer, a tube and a drillable packer with setting tool. The assembled assembly is run in to the horizontal well at the pipe string until the water-swellable packer is set opposite the cut out section of the pipe string. The drillable packer is set in the pipe string and the process string is removed from the well with setting tool. Thereupon the next oil-saturated interval is perforated and oil extraction is continued until water cut of extracted oil. Then the above operations are repeated starting from cut-out of a section in the pipe string of the horizontal borehole and completing with removal of the process pipe string with setting tool from the well.EFFECT: improved quality of isolation for flooded intervals.4 dwg

Description

The invention relates to the oil industry and can be used to increase oil recovery deposits, opened horizontal well.

A known method of operating a horizontal well (patent RU No. 2355621, IPC ЕВВ 43/00, publ. 10.10.2008, bull. No. 28), including the injection of a technological solution through a collarless pipe coiled tubing into a well, development of a well and its operation, cased the vertical part of the well places a tubing string, inside the tubing string a sleeveless coiled tubing is placed, the end of the coiled tubing is placed at the end of an uncased horizontal well, pumped into a horizontal well by circulation wells through a sleeveless coiled tubing pipe, a highly viscous hydrophilic solution in the volume of 0.1-0.3 of the length of the horizontal wellbore, and then the technological solution in the volume of the horizontal wellbore located in the reservoir, and when the process solution is injected, the sleeveless coiled tubing is raised at a filling speed horizontal wellbore with a technological solution, hold technological exposure for the reaction of the technological solution, develop the well, and subsequent operation in lane s 10-15 day lead with minimal load on the well.

The disadvantages of this method are:

- firstly, the incomplete production of oil reserves from the reservoir, as well operation in the first 10-15 days. lead at minimum loads on the well, and with a further increase in load (depression) on the horizontal well. As a result, there is a breakthrough of water into the trunk of a horizontal well from the underlying water-developing layer, which does not fully ensure the development of oil reserves from the reservoir;

- secondly, reservoir properties of the reservoir are deteriorating due to the negative impact of chemicals due to the injection of a high viscosity hydrophilic solution and then a technological solution into the horizontal wellbore;

- thirdly, the low efficiency of water insulation works (VIR) carried out through the horizontal wellbore. This is due to the fact that the horizontal wellbore is drilled along the bed, and the permeability of the rocks along the bed is much higher than in the transverse direction, therefore, formation water from the underlying aquifer is easily filtered by bedding along a thin layer of a highly viscous hydrophilic solution, which is used as a solution of polyacrylamide, and breaks into the trunk of a horizontal production well.

The closest in technical essence is the method of operating a horizontal well (patent RU No. 2447265, IPC ЕВВ 43/00, publ. 04/10/2012, Bull. No. 10), which includes operating the well before flooding the produced products, lowering the pipe string into the horizontal wellbore fixing the pipe string in the horizontal well by pumping cement into the interval of water inflow of the formation, and after lowering the pipe string into the horizontal part of the well, fill the annulus with cement mortar, push cement slurry into the borehole zone through the pipe string, stop selling while equalizing the pressure in the pipe string and the annulus, carry out technological exposure to set and harden the cement, clean the pipe string from cement residues, conduct technological exposure for at least 3 months with periodic study of the near-borehole space by a pulsed neutron generator, stop technological exposure after stabilization of the readings of a pulsed neutron generator, conduct geophysical studies and, according to the readings, pulse of the neutron generator, the oil-saturated intervals revealed by the horizontal wellbore are determined in the reservoir, the oil-saturated intervals are perforated from the far end of the horizontal wellbore to the wellhead, the oil is sampled until the oil-saturated interval is flooded, the waterlogged interval is isolated by installing a cement bridge inside the horizontal pipe string and the oil is continued to be extracted from subsequent interval.

The disadvantages of this method are:

- firstly, the low quality of isolation of waterlogged intervals by the installation of cement bridges, due to their spreading inside the pipe string in the horizontal wellbore;

- secondly, the low efficiency of isolation of waterlogged intervals behind the pipe string due to the formation of annular flow channels. Since the exploitation of a horizontal well is based on successive perforation and subsequent exploitation of oil-saturated intervals with the creation of depression on oil-saturated intervals until they are flooded, starting from the far end of the horizontal wellbore to the wellhead depending on the number of oil-saturated intervals, while during operation of each subsequent oil-saturated interval due to the creation of depression casing overflow channels will be formed on it, through which water will flow from the previous odnivshegosya interval;

- thirdly, the incomplete production of oil reserves from oil-saturated intervals of the reservoir, this is due to the fact that after watering one interval, isolate it by installing a bridge, and then open (perforate) another oil-saturated interval and operate it, while water from the flooded interval through the channels behind-the-casing flows enters the operated oil-saturated interval, encircling it, which leads to water withdrawal, while oil reserves remain in the oil-saturated interval.

The technical objectives of the proposal are to improve the insulation quality of waterlogged intervals inside the pipe string by installing drillable packers in the pipe string and to increase the insulation efficiency of waterlogged intervals behind the pipe string by cutting off the annular flow channels formed during the operation of oil-saturated intervals by installing a water-swelling packer, as well as ensuring the full development of reserves oil from each oil-saturated interval of the reservoir due to their tight cutoff from each other.

The stated technical problems are solved by increasing oil recovery in a horizontal well, including operating the well before watering the produced product, lowering the pipe string into the horizontal well, fixing the pipe string in the horizontal well by pumping cement, cleaning the interior of the pipe string from cement slurry residues, geophysical research and determination in the reservoir of oil-saturated intervals, opened by a horizontal wellbore, intensive perforation of oil-saturated intervals from the far end of the horizontal wellbore to the wellhead, oil selection before the waterlogging interval, isolation of the waterlogged interval, and continued oil extraction from the subsequent interval.

What is new is that to isolate the perforated waterlogged interval, a portion of the pipe string in the horizontal well is cut from the mouth side relative to the waterlogged interval, the cut-out section of the pipe string is cleaned from the remains of the destroyed cement stone, and then the assembly consisting of a plug, a water swell, is assembled from the bottom to the top of the well. packer, nozzle and drillable packer with a landing tool, lower the assembled assembly on the process pipe string into a horizontal barrel to place the water swellable packer opposite the cut section of the pipe string, drill the packer to be drilled in the pipe string and remove the process pipe string with the planting tool from the well, then perforate the next oil-saturated interval and continue oil selection until flooding, after which the above operations are repeated starting from cutting the section in the pipe string of the horizontal section of the well and ending with the extraction of the process pipe string with the planting tool from the well.

In FIG. 1, 2 and 3 schematically and sequentially depict the proposed method of increasing oil recovery deposits, opened horizontal well.

The oil reservoir is operated by a horizontal well, for example, with a flow rate of 12 m ³ / day for 4 years, up to 99% of the water cut of the produced products. They stop production, raise deep equipment from the well (not shown in Figs. 1, 2, 3, 4). A pipe string 2 is lowered into a horizontal wellbore 1 (see Fig. 1), for example, a pipe string of 114 mm diameter with a wall thickness of 7 mm according to GOST 633-80, and the pipe string 2 is fastened in a horizontal wellbore 1 by pumping cement.

The descent and fastening of the pipe string 2 in the horizontal barrel 1 is carried out in any known manner. For example, a pipe string 2 with a non-return valve (not shown in FIGS. 1, 2, 3, 4) at the end is lowered into the horizontal wellbore 1 (see FIG. 1) by means of a left sub on the process pipe string (in FIG. 1, 2, 3, 4 is not shown), after which the pipe string 2 is fastened (see Fig. 1) in the horizontal wellbore by pumping and selling cement mortar into the annulus of the pipe string 2 through a non-return valve. Next, turn off the casing by means of the left sub from the pipe string 2. Remove the casing from the well.

Next, the internal space of the pipe string 2 is cleaned from the remains of cement mortar. For this, the cemented pipe string 2 is passed with a 100 mm diameter chisel on the drill pipe string, and the pipe string is washed and cleaned of cement residues.

Geophysical studies are carried out, for example, using a pulsed neutron generator and oil-saturated intervals are determined, for example, four oil-saturated intervals are identified in deposits: 3 ′, 3 ″, 3 ″ ″ 3 ″ ″ opened by horizontal barrel 1.

Carry out sequential perforation of oil-saturated intervals 3 ′, 3 ″, 3 ″ ′ 3 ″ ″ from the far end of the horizontal trunk 1 to the mouth. Oil sampling prior to waterlogging of the oil saturated interval, isolation of the waterlogged interval and continued oil selection from the subsequent oil saturated interval.

Thus, perforation 4 ′ is performed in the pipe string 2 opposite the oil-saturated interval 3 ′ at the farthest end of the horizontal wellbore 1 from the wellhead (closest to the bottom 5). The downhole pumping equipment is lowered into a horizontal well and oil is selected from the oil saturated interval 3 ′ until it is flooded, for example, to 99%.

In order to isolate the perforated waterlogged interval 3 ′ closest to the face 5, a section 6 ′ of pipe string 3 is cut out in horizontal barrel 1, for example, with a length of h = 4 m from the mouth side relative to the waterlogged interval 4 ′. To do this, drill string is lowered into a horizontal well equipped with a bottom-hole hydraulic downhole motor and a cutting device (not shown in FIGS. 1, 2, 3 and 4) of any known construction. Carry out the cutting of the string of pipes 2 (see Fig. 2) from the mouth in the direction of the bottom 5 of the horizontal well 1. Raise the string of drill pipes with a hydraulic downhole motor and a cutting device at the wellhead.

The cut section 6 ′ of the pipe string 3 is cleaned from the remains of the destroyed cement stone. To do this, a drill pipe string with a sliding expander (not shown in Figs. 1, 2, 3.4, not shown) at the end is lowered into a horizontal well, and a sliding expander of any known construction is used. The drill pipe string is rotated from the wellhead using a power swivel or rotor unit, for example, at a frequency of 20 rpm and from the wellhead towards the bottom 5 of the horizontal well, the remains of the destroyed cement stone are cleaned from the interval of the cut section 6 ′ of the pipe string 3. Then a drill pipe string with a hydraulic downhole motor and a sliding expander is removed from the pipe string 2 of the horizontal well. Next, at the mouth of a horizontal well, an arrangement consisting of a plug 7 ′, a water swellable packer 8 ′, a nozzle 9 ′ and a drillable packer 10 ′ with a landing tool of any known construction is assembled from bottom to top (not shown in FIGS. 1, 2, 3, 4). The assembled assembly is lowered into the horizontal pipe 1 in the horizontal pipe 1 (see Fig. 3) until the water-swellable packer 8 ′ is placed opposite the cut-off portion 6 ′ of the pipe string 3. The drillable packer 10 ′ is planted in the pipe string 2 and the technological pipe string with the fit is removed tool from a horizontal well.

Then the next oil-saturated interval of 2 ″ is perforated and oil selection is continued until watering. After that, the above operations are repeated, starting from cutting a section in the pipe string of the horizontal wellbore and ending with the extraction of the pipe string with the planting tool from the well.

That is, perforation 4 ″ (see FIG. 3) is performed in the pipe string 2 opposite the oil saturated interval 3 ″ (to the left of the waterlogged oil saturated interval 3 ′ from the side of the wellhead 1). Downhole pumping equipment 1 is lowered into the well and oil is taken from the oil saturated interval 3 ″ until it is flooded, for example, to 99%. To isolate the perforated watered interval of 4 ″ (see FIG. 4), a section 6 ″ of pipe string 3 is cut out in a horizontal shaft 1 from the mouth side relative to the watered interval of 3 ″. Purify the cut section 6 ″ pipe string 2 from the remnants of the destroyed cement stone. Then, at the wellhead 1, an arrangement is assembled from bottom to top, consisting of a 7 ″ plug, 8 ″ water swellable packer, 9 ″ nozzle, and 10 ″ drillable packer with a landing tool.

The assembled assembly is lowered into the horizontal pipe 1 on the pipe casing 1 until a water-swellable packer 8 ″ is placed opposite the cut section 6 ″ of the pipe string 2. The drillable packer 10 ″ is planted in the pipe string 2 and the pipe casing with the planting tool is removed from the horizontal well. Perforation 4 ″ ″ is performed in the pipe string 2 opposite the oil saturated interval 3 ″ ″ (to the left of the waterlogged oil saturated interval 3 ″ from the wellhead 1). Downhole pumping equipment 1 is lowered into the well and oil is taken from the oil saturated interval 3 ″ ″ until it is flooded, for example, to 99%. To isolate the perforated waterlogged interval 4 ″ ″, a section 6 ″ ″ of pipe string 3 is cut out in the horizontal shaft 1 from the mouth side relative to the waterlogged interval 4 ″ ″. The cut section 6 ″ ′ of the pipe string 2 is cleaned from the remains of the destroyed cement stone.

Then, at the wellhead, an assembly consisting of a 7 ″ ″ plug, an 8 ″ ″ swellable packer, a 9 ″ ’nozzle, and a 10 ″ бу drillable packer with a landing tool are assembled. The assembled assembly is lowered on the pipe production string (not shown in FIGS. 1, 2, 3) into the horizontal barrel 2 until the water-swellable packer 8 ″ is placed opposite the cut section 6 ″ ″ of the pipe string 3.

Drill packer 10 ″ ′ is planted in pipe string 2 and a process pipe string with a planting tool is removed from a horizontal well. Perforate 4 ″ ″ in the pipe string 2 opposite the oil saturated interval 3 ″ ″ (to the left of the flooded oil saturated interval 3 ″ ″ from the wellhead 1). Downhole pumping equipment 1 is lowered into the well and oil is taken from the oil saturated interval 3 ″ ″ until it is flooded, for example, to 99%. Then the horizontal well 1 is transferred under injection or liquidated.

As the nozzles 8 ′, 8 ″, 8 ″ use, for example, a piece of tubing with a diameter of 73 mm and a length of 4 m

Landing in the pipe string of drillable packers 8 ′, 8 ″, 8 ″ ″, in contrast to the installation of cement bridges, as described in the prototype, improves the quality of insulation of waterlogged intervals inside the pipe string in a horizontal wellbore.

Water-swellable packers 8 ′, 8 ″, 8 ″ ″ are prefabricated, consisting of several unions screwed together with a length of 1000 mm = 1 m, a length not exceeding the length of the corresponding cut sections 6 ′, 6 ″, 6 ″ ’, so that the pipe string 2 does not prevented the radial expansion of water swellable packers 8 ′, 8 ″, 8 ″ ″. For example, with a length of h = 4 m, four nozzles are twisted together, which form a water-swellable packer 8 ′. As a result, oil is sequentially taken one after another from each oil saturated interval 3 ′, 3 ″, 3 ″ ′ 3 ″ ″, and when oil is taken from each subsequent oil saturated interval, the previous waterlogged interval is sealed off. In this way, the full production of all oil saturated intervals 3 ′, 3 ″, 3 ″ ′ 3 ″ ″ is produced in the reservoir exposed by horizontal well 1.

It has been experimentally established that the radial expansion (swelling) of water-swellable packers 8 ′, 8 ″, 8 ″ ’before contact with the rock is 10-14 days, while the maximum pressure drop perceived by water-swellable packers 8 ′, 8 ″, 8 ″ ″ , is 8.5 MPa, and the potential for volumetric swelling is up to 1000%.

As the drillable packers 10 ′, 10 ″, 10 ″ ′, any known drillable packer is used, for example, described in the patent for invention RU No. 2296853 “Drillable packer”, IPC E21B 33/12, publ. 04/10/2007 or in the patent for invention RU No. 2137902 “Drill packer plug”, IPC ЕВВ 33/12, publ. September 20, 1999

The efficiency of isolation of waterlogged intervals is increased due to the elimination of casing flow channels behind the pipe string 1, since water-swellable packers 8 ′, 8 ″, 8 ″ are packaged directly in the rock, and not in the pipe string 1. In addition, the operation of a horizontal well is based on a sequential perforation and subsequent operation of oil-saturated intervals with the creation of depression on oil-saturated intervals, starting from the far end of the horizontal trunk to the mouth, depending on the number of oil-saturated intervals fishing.

During the operation of each subsequent oil-saturated interval, regardless of the created depression, the annular flows are excluded due to the cutting out of the pipe column section and planting of the water-swellable packer in this section.

The proposed method of increasing oil recovery deposits, opened horizontal well, allows you to:

- to improve the quality of insulation of waterlogged intervals inside the pipe string in the horizontal wellbore by installing a drillable packer in the pipe string;

- increase the efficiency of isolation of waterlogged intervals behind the pipe string by cutting off the annular flow channels formed during the operation of oil-saturated intervals by installing a water-swellable packer;

- to ensure the full development of oil reserves from oil-saturated intervals of the reservoir due to the sequential tight shutoff of oil-saturated intervals from each other.

Claims (1)

A method of increasing oil recovery from a horizontal open hole, including operating the well before watering the produced product, lowering the pipe string into the horizontal well, fixing the pipe string in the horizontal well by pumping cement, cleaning the interior of the pipe string from cement slurry, conducting geophysical surveys and determining in oil-saturated intervals discovered by the horizontal wellbore, sequential perforation of oil-saturated intervals fishing from the far end of the horizontal wellbore to the mouth, oil sampling before the waterlogging interval, isolation of the waterlogged interval and continued oil sampling from the subsequent interval, characterized in that a section of pipe string in the horizontal wellhead from the mouth relative to the waterlogged interval is cut out to isolate the perforated waterlogged interval, cleaning the cut-out section of the pipe string from the remains of the destroyed cement stone, then at the wellhead, an assembly consisting of a plug is assembled from bottom to top flanges, a water swellable packer, a nozzle, and a drillable packer with a planting tool, lower the assembled assembly on the pipe string into a horizontal barrel before placing the water swellable packer opposite the cut section of the pipe string, plant the drillable packer in the pipe string, and remove the pipe process pipe with the pipe tool from the well after which the next oil-saturated interval is perforated and the selection of oil continues until watering, after which the above operations are repeated, n starting with cutting portion in the column of the horizontal pipe portion of the well and ending extraction processing of the pipe string with a mounting tool from the wellbore.

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