RU2485290C1 - Development method by horizontal well of formation with zones of various permeability - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: proposed method involves drilling of a horizontal well and cementing of a casing pipe to the formation roof, determination in the formation of zones with various permeability, lowering to the well of a pipe string with filters having the possibility of mechanical opening and closing from the inside, and packer from the outside, and installation of packers with disconnection of filters in an open shaft. According to the invention, packers are installed for disconnection of the formation zones with various permeability. Productivity and waterflooding of zones is determined by series opening and closing of filters located opposite the appropriate zone of formation. After that, zones with close permeability are determined by being combined into groups. Operation of wells is performed in turn in each group by opening the filters relating to the specified group and by closing the rest ones. At increasing waterflooding in one of the groups, a zone with maximum waterflooding is determined in it by subsequent closing and opening of the corresponding filters in the group. After that, the zone with maximum permeability is treated with water insulating compound, or the corresponding filter is completely shutoff. The well operation is continued in the specified mode. After process exposure of the zone treated with water insulating compound the influx is induced from that zone and operated with zones having permeability close to that one.EFFECT: increasing oil extraction rate owing to involving in extraction of the formation products of zones with lower permeability and zones waterflooded during the operation after process treatment.1 dwg

Description

The invention relates to the oil and gas industry, in particular to the development and operation of oil reservoirs with zones of different permeability, including using lateral and lateral horizontal shafts from production casing.

A well-known communication system (EPO No. 010090, IPC ЕВВ 43/00, 47/12 dated 06/30/2008) containing a submersible pipe made with dimensions for introducing into the inside of the equipment for completion of the well, the equipment for completing the well equipped with expandable a tubular element, and the submersible pipe is divided into sections with control lines with connecting elements to enable the sections of the control line to be connected to each other when the submersible pipe is inserted into the equipment for completion of the well. In addition, a communication system for use in a wellbore includes:

- equipment for single-stage well completion having a tubing string to be placed;

- an expandable sand filter mounted on a tubing string to be placed;

- lower and upper packers installed on the host tubing string;

- a control line passing through the lower and upper packers in cooperation with the sand filter, in order to enable the lowering of equipment for single-stage completion of the well and the control line into the wellbore in one run.

This system implements a method of operating a formation with zones of different permeability, including lowering into the well on a column of filter pipes with adjustable valves, packers that divide the formation into zones, installing these packers opposite the pre-installed expandable pipe sections.

The disadvantage of this method is that the zones in the reservoir are divided into sections without taking into account the permeability coefficient in each particular section, without additional geophysical studies, which ultimately reduces the oil recovery coefficient (CIN) during the operation of the well due to the uneven distribution of the hydrodynamic front in the zones with different permeability.

The closest in technical essence to the claimed is a device for operating a formation with zones of different permeability (PM No. 94628, IPC ЕВВ 43/14, 33/13, 43/12, publ. Bulletin No. 15 of 05/27/2010), including casing with packers and valves located between the packers and capable of being controlled from the mouth, each of which is made in the form of a housing with through holes and an axially movable sleeve, configured to open and close holes in extreme positions and equipped with a restriction, it has patches for isolation of zones with low permeability, packers are provided for installation within patches, and filters are placed on the outside of the valves, and to move the sleeve down the process string is equipped with a pusher pressed down by a spring whose force exceeds the shear force of the sleeve, pipe with an annular protrusion, outer diameter which is larger than the bore diameter of the corresponding narrowing of the sleeve, but smaller than the similar bore diameters of the narrowing of the bushings further located from the bottom of the well, and to move Ulk up the technological column is equipped with a grip made in the form of a housing with balls drawn by springs outside, the diameter of the circumscribed circle around which is larger than the passage diameter of the sleeve narrowing corresponding to it, but smaller than the similar passage diameters of the sleeve narrowing further from the bottom of the well, and the spring force is sufficient to shift corresponding sleeve balls.

This device implements a method of operating a formation with zones of different permeability, including examining the formation for zones with different permeabilities, isolating zones with low permeability with adhesives, lowering a pipe string with filters mechanically closing and opening, and packers installed opposite the adhesives to isolate the annulus.

The disadvantage of this device is that zones with low permeability are isolated with adhesives, and operation is carried out only from zones with high collector properties, which also reduces the oil recovery factor. In addition, in case of flooding of any of the zones, it overlaps and is not subsequently operated.

The technical task of the proposed method is to increase the oil recovery factor due to the involvement of low permeability zones and zones watered during operation after technological treatment in the production of the formation.

The technical problem is solved by the method of developing a horizontal wellbore of a formation with zones of different permeability, including drilling a horizontal well and cementing a casing string to the roof of the formation, determining zones with different permeability in the formation, lowering a string of pipes with filters made with the possibility of mechanical opening and closing from the inside, and packers outside, the installation of packers with isolation filters in the open trunk.

What is new is that packers are installed to separate reservoir zones with different permeabilities, the productivity and watering of zones is determined by successively opening and closing filters located opposite the corresponding zone of the reservoir, after which zones with close permeability are determined, combining them into groups, wells are operated alternately from each group, opening the filters corresponding to the group and closing the others, with an increase in water cut in one of the groups, determine the zone with the highest water cut in it by sequentially closing and opening the corresponding filters in the group, after which the zone with the highest permeability is treated with a water-insulating composition or the corresponding filter is completely blocked, after which the well operation continues.

Also new is the fact that after technological exposure of a zone treated with a water-insulating composition, an influx from this zone is caused and is operated with zones having a permeability close to it.

The drawing shows a diagram of a reservoir with zones of varying permeability in a horizontal wellbore.

The method is carried out in the following sequence.

After drilling well 1, the casing 2 is cemented above the producing formation 3. Opening of the formation 3 is performed by deepening the bore 4. Then, geophysical studies of the formation 3 in the deepening of the bore 4 are performed to identify zones with low 5 and high 6 permeability (zones with high permeability are whose permeability is at least twice as high as that of the remaining zones, which are zones with low permeability).

Next, the descent of the pipe string 7 with filters 8, which exclude the passage of large solid particles with the production of the formation 3, which can lead to the failure of the movable parts of the valve intended for mechanical opening and closing from the inside (for example, see patent for ПМ No. 94628, begins) ) filters 8, and packers 9 outside. The packers 9 are installed with the filters 8 disconnected in the open hole, and the interval between the packers 9 is selected based on the length of the zones with the corresponding permeability 5 or 6 of the formation 3. During the descent of the pipe assembly 7 with the packers 9 and filters 8, the filters 8 are closed position, and the filling of the pipes 7 occurs through the open valve 10 of the shoe 11, located at the lower end of the pipe string 7. Upon reaching the bottom 12, the valve 10 of the shoe 11 abuts the bottom 12 and closes the passage opening of the shoe 11. Then, the entire ponovki to verify its integrity.

Next, one of the filters 8 is opened (for example, starting from the bottom), located opposite the corresponding zone 6 of formation 3, swabbing causes an influx of oil, is operated for a certain time to obtain a stable flow rate from this zone 6, and thereby determine the productivity and water cut this zone 6. After that cut off this zone 6 by closing the filter 8 and open the next filter 8 opposite, for example, zone 5, and repeat the operation. As a result of this, zones 5 or 6 with close permeability are determined, combining them into groups (for example, with high 5 and low 6 permeability, which differ at least twice). Well 1 can be operated either alternately from each group 5 or 6, opening the filters 8 corresponding to the group and closing the others, or together.

If the collection properties of any zone 5 or 6 from any group are reduced, it can be treated with reagents (for example, acid treatment). By sequential opening and closing the filters 8 of the corresponding zone of the formation 3, the zone to be treated is determined, then the column of tubing (not shown) or coiled tubing (not shown) is lowered into the zone 5 or 6, with the remaining filters 8 closed, the reagent is pumped and for a certain time, it is processed. Next, an oil flow from this zone 5 or 6 is caused, the production rate is determined, and then the well is continued to operate in the previous mode, while opening the remaining filters of group 8, to which zone 5 or 6 is assigned after treatment. In the same way, it is possible to process all zones 5 or 6 from different groups.

In the case of an increase in the percentage of water in oil, the method of unauthorized water inflow is determined by sequentially closing and opening the filters 8 in the corresponding zone 5 or 6 of formation 3. Then, the zone with the highest water cut (for example, 5) is treated with a water-insulating composition 13 (for example, a water polymer, a special cement mortar, etc.), and the corresponding filter 8 is closed, after which the well operation continues. After technological exposure of zone 5, treated with a water-insulating composition, inflow from this zone 5 is caused and, with positive results, they continue to operate with a group of zones 5 or 6, to which it is assigned, based on geological studies.

The proposed method allows to increase the oil recovery factor due to the involvement of zones with low permeability and zones watered during operation after technological treatment in the production of the formation.

Claims (1)

A method for developing a horizontal well of a formation with zones of different permeability, including drilling a horizontal well and cementing the casing to the roof of the formation, determining zones with different permeability in the formation, lowering into the well of a string of pipes with filters made with the possibility of mechanical opening and closing from the inside, and packers from the outside installation of packers with uncoupling filters in an open bore, characterized in that the packers are installed to decouple formation zones with different permeabilities, productivity The water content and water cut of the zones are determined by the successive opening and closing of filters located opposite the corresponding zone of the formation, after which zones with close permeability are determined, combining them into groups, wells are operated in turn from each group, opening the filters corresponding to the group and closing the others, with increasing water cut in one of the groups determines the zone in it with the greatest water cut by sequential closing and opening the corresponding filters in the group, after which the zone with the greatest the permeability is treated with a water-insulating composition or the corresponding filter is completely blocked, after which the well operation is continued in the previous mode, after technological exposure of the zone treated with the water-insulating composition, inflow from this zone is caused and operated with zones having a close permeability to it.

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