RU2738146C1 - Method for development of formation with bottom water - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to oil and gas industry and can be used to increase hydrocarbon extraction from formation with bottom water when it is displaced by water. Method of formation production with bottom water includes construction of pressure and horizontal production wells, conducting horizontal shafts, first of which is near oil-water contact, and second - in upper part of oil-saturated formation, pumping working agent through injection wells, extraction of formation products through production wells. First horizontal borehole is constructed from a pressure well with perforation for delivery directed downwards, and the second horizontal bore of a production well is equipped with perforated holes directed upward. Volume of product extraction from production wells is maintained at level of 80–90 % of pumping volume in injection wells.

EFFECT: technical result consists in simplification of construction and implementation due to construction of horizontal shafts from different wells, provision of absence of reagent injection for formation of water-insulating screen and reduction of water content of product, constant operation of all horizontal shafts and implementation of waterproofing due to hydrodynamic distribution of flows, resulting in saving material and technical resources.

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Description

The invention relates to the oil and gas industry and can be used to increase the extraction of hydrocarbons from a formation with bottom water when displaced by water.

A known method for the development of oil deposits with water-oil zones (patent RU No. 2282023, IPC Е21В 43/20, publ. 08/20/2006 Bull. No. 23), including the placement of horizontal production wells in the reservoir and the selection of oil through the production wells, and the productive formation is drilled from the top of the formation, at least one conditionally horizontal well with a borehole inclination angle of 75-85 ° to the vertical along a descending profile, ensuring the placement of the well bottom near the oil-water contact outside the area of high pressure gradients not exceeding 0.25 MPa / m, are cased a well with a production string running down to the bottom of the well, and part of the string is made of a fiberglass pipe 10-15 m long, placed in the near-roof part of the formation, 30-70% of the productive formation is opened starting from the top, while as the well is flooded, additional production of oil reserves is carried out by drilling the second inclined and / or horizontal borehole above the first borehole with a tie-in in fiberglass new part of the column.

The disadvantages of this method are the complexity of the construction of a production well due to the presence of a fiberglass pipe and the need to control and change the azimuth angle, the complexity of implementation due to the need for constant monitoring of water cut and the construction of a second inclined and / or horizontal borehole for additional production of oil reserves.

There is also known a method of exploiting hydrocarbon deposits (patent RU No. 2564722, IPC Е21В 43/20, publ. 10.10.2015 bull. No. 28), including laying horizontal wells, perforating them, and during the exploitation of hydrocarbon deposits with active bottom water at the initial stage, they are drilled sub-horizontal wells with vertical, two inclined sections of the wellbore at angles of 30-40 degrees and 45-60 degrees from the vertical, respectively, and a horizontal section of the wellbore, while the vertical section is drilled to the casing shoe overlapping permafrost, the first inclined section is at an angle of 30-40 degrees drilled before entering the pay zone defined by the development project and cased with a production string, the second inclined section at an angle of 45-60 degrees from the vertical, cased with a filter liner, is drilled along the pay bed to a mark 20 m above the initial gas or oil-water contact, horizontal wellbore 150-450 m long drilled in the pay zone parallel but the gas or oil-water contact, in the horizontal wellbore there is a well filter with holes made in it, in the inner cavity of the production casing there is a production string of tubing, lowered to the shoe of the wellbore filter, during the operation of a hydrocarbon deposit, gas or oil is initially withdrawn through the holes of the well filter along the production string, and as the formation pressure decreases and the formation water is pulled to the horizontal section of the wellbore, overlapping from 50 to 80% of the holes in the well filter, the production string is lifted to the top of the productive formation and perforated through this string into the gas or oil medium of the liner-filter in the interval from the top of the productive formation to the head of the wellbore filter, taking into account the placement of the lower perforations 10 m above the current gas or oil-water contact, with the subsequent elimination of the horizontal section of the wellbore, for example ep, by pumping cement slurry through a flexible pipe, lowered into the inner cavity of the tubing, or blocking the borehole with a bridge plug, after which the continuation of the exploitation of the hydrocarbon reservoir at the final stages is carried out by sampling gas or oil through the perforations of the filter liner along the tubing.

The disadvantages of this method are the complexity of the construction of a production well due to the need to control and change the azimuth angle, the complexity of implementation due to the need for constant monitoring of water cut, isolation, if necessary, of the watered section of the wellbore and opening the inclined interval of the wellbore for additional production of oil reserves.

The closest in technical essence is a method for the development of an oil reservoir underlain by water (patent RU No. 2592920, IPC Е21В 43/20, E21B 43/32, E21B 43/11, publ. 07/27/2016 Bull. No. 21), including the injection of a working agent through injection wells, selection of reservoir products through production wells, drilling of horizontal boreholes of an oil production well in the same vertical plane and selection of production through horizontal boreholes, and the first horizontal borehole is driven in an oil-saturated formation near the oil-water contact and a second horizontal borehole in the upper part of an oil-saturated reservoir with a length shorter than the length of the first horizontal wellbore, perforating the first horizontal wellbore in the horizontal plane, injecting into the first horizontal wellbore a waterproofing material having a density greater than the density of oil and less than the density of formation water and creating a barrier to the flow of formation water in contact with formation water, and o simultaneous injection of oil into the second horizontal borehole with the same pressure and flow rate, at which the water-insulating material is injected, before the seizure of the water-insulating material, stopping the injection and conducting technological holding and oil withdrawal through the second horizontal borehole.

The disadvantages of this method are high material costs and the complexity of the construction of a production well due to the wiring of its two horizontal boreholes in the same vertical plane, with the wiring of the first horizontal borehole in the oil-saturated reservoir near the oil-water contact (OWC) and the second horizontal borehole in the upper part of the oil-saturated reservoir, the first of which, after the injection of the water-insulating composition, is taken out of operation.

The technical objective of the proposed invention is to create a method for the development of a formation with bottom water, which makes it possible to simplify the construction and implementation due to the construction of horizontal boreholes from different wells, the absence of reagent injection to form a water barrier, continuous operation of all horizontal boreholes and the implementation of waterproofing due to hydrodynamic redistribution of flows, which leads, as a result, to savings in material and technical resources.

The technical problem is solved by the method of developing a formation with bottom water, including the construction of injection and horizontal production wells, drilling of horizontal wells, the first of which is near the oil-water contact, and the second is in the upper part of the oil-saturated formation, injection of a working agent through injection wells, selection of formation products through production wells.

The novelty is that the first horizontal wellbore is built from an injection well, with perforation for injection directed downward, and the second horizontal wellbore is equipped with perforations directed upward, while the volume of production from the production wells is maintained at 80-90% of the volume of injection in injection wells.

It is also new that perforation and perforations in the respective horizontal boreholes of injection and production wells are performed taking into account the injection and withdrawal points, respectively, providing for a uniform distribution of the waterflooding front and production by an increase in the total cross-sectional area of perforations or perforations in direct proportion to the distance of the point injection of the working agent and the point of production of the formation, respectively

It is also new that the perforation and perforations in the respective horizontal boreholes of injection and production wells are carried out by secondary opening with directional perforation.

It is also new that perforation and perforations in the respective horizontal boreholes of injection and production wells are carried out by installing appropriate filters in the corresponding open hole with the perforation orientation downwards or perforations upwards.

The method of developing a formation with bottom water includes the construction of horizontal injection and production wells along any of the known patterns. At the fields of the Republic of Tatarstan (RT), a uniform square grid of wells is most often used. Moreover, the horizontal wellbore of each injection well is wired close to the oil-water contact (OWC). Taking into account the construction error and changes in the OWC level, it was assumed in the RT fields that the injection wellbore should pass within ± 10 m from the OWC level. The horizontal wellbore of each production well is drilled in the upper oil-saturated part of the formation (for RT fields, not more than 7 m from the top of the formation). Perforation of the horizontal wellbore of the injection well is performed downward, as close as possible to the perpendicular to the OWC level, and the horizontal wellbore of the production well - upward.

Re-opening of injection and horizontal wells can be carried out using the following technologies.

Firstly, after the wellbore has been drilled to the bottom, it is equipped with a casing and the annulus is filled with cement slurry to its full length. Cumulative perforators (patents RU No. 71795, 2238398, or the like) or hydromechanical perforators (patents RU No. 136852, 154123, 2316644) are lowered into the well, and for cumulative perforators all charges are set in one direction, and hydromechanical perforators are used with one cutter. For orientation in space, oriented-directed systems of the "Scorpion_ON" type, manufactured by Promperforator (Samara), patent RU No. 170641, or the like are attached to the perforators. For the secondary opening of the productive formation on the pipe string, a perforator is lowered into the horizontal bore of the corresponding well and oriented to perforate downward in injection wells, or to obtain upwardly directed perforations in production wells.

Secondly, the well is first drilled to the top of the productive formation, equipped with a casing pipe, filling the annulus with cement slurry to the full length, obtaining the main wellbore. Then, a horizontal wellbore is drilled with a bit of a smaller diameter in the productive formation, which is left open. Collect the liner of the required length so that all radial holes (perforations or perforations for the respective wells) are located on one side. The liner on the production string with the known oriented directional systems is lowered into the open horizontal wellbore of the corresponding well, orienting and setting so that the perforations in the injection wells are directed downward, and the perforations in the production wells are directed upward.

For wells with short horizontal boreholes (for RT fields 70 - 100 m), perforation or perforations are performed evenly along the entire length of the wellbore, since this does not greatly affect the uniformity of water injection or withdrawal of reservoir products along the entire length of the horizontal wellbore of the corresponding wells.

For wells with long horizontal boreholes (for RT fields over 250 m), when a working agent (water) is injected or a reservoir product is withdrawn by a pump directly into a horizontal wellbore (conditional injection point) or from a horizontal wellbore (conditional sampling point), respectively, then perforation and the perforations in the respective horizontal boreholes of the injection and production wells are performed taking into account the injection and withdrawal points, respectively. At the same time, for uniform distribution of the waterflooding and production front along the entire length of the horizontal wellbore, the total cross-sectional area of perforations or perforations is increased in direct proportion to the remoteness of the injection point of the working agent and the extraction point of the formation product, respectively.

For wells with medium-length horizontal boreholes (for RT fields 100 - 250 m), when the injection of the working agent (water) or the withdrawal of formation production by a pump is carried out from the wellhead into the horizontal wellbore or from the horizontal wellbore, respectively, then perforation or perforations along the length of the horizontal wellbore is performed with an increase in the total cross-sectional area from the wellhead to the bottom of the well to ensure an even waterflooding front for the injection well and to reduce the pressure during withdrawal (withdrawal front) in producing wells. That is, the start of perforation or perforations in the horizontal wellbore from the wellhead side of the corresponding well is taken as the injection point and anchorage point.

The authors do not pretend to the regularity of changes in the cross-sectional area of perforations or perforations from the injection and withdrawal points, respectively, since they are known from open sources (see Features of the nature of the flow of fluids in horizontal wells according to the data of deep research: abstract of the dis ... Sciences: 25.00.17 / Nazimov Nafis Anasovich; [Place of protection: Tatar scientific research and projection institute of oil]. - Bugulma, 2007. - 26 p.)

After completion of construction, technological strings are lowered into the injection wells with the outlet of each at the corresponding injection point, and the production wells on the pump tubing with the location of the inlet of each pump at the corresponding withdrawal point. Water is injected into the injection wells to ensure the displacement pressure of the product, and from the production wells, 80-90% of the injection volume is taken from the wells, which ensures intensive product withdrawal without pulling water.

Since the injection of water is carried out in the lower direction through the perforation, no water-oil emulsion is formed from the top and side of the horizontal wellbore of the injection well, which in ordinary wells (for example, as in analogs), under the influence of constant injection, is gradually pushed into the formation and eventually serves as a kind of bridge for water to a production well. Water has a much greater mobility in reservoir conditions in relation to oil and, under certain conditions, approaches the production well faster than oil, bypassing the production. Water under the action of injection pressure and gravity separation (water has a higher density than oil) sinks down the formation into the bottom water, and does not rush up to the production well.

In this case, sampling is carried out through the perforations on top of the horizontal wellbore of the production well, without creating a pressure drop from the bottom of the horizontal wellbore, where water is first drawn.

A differentiated approach to creating perforations in injection wells and perforations in production wells provides a smoother pressure drop along the length of the corresponding well, eliminating peaks through which water is supplied to the production well.

As shown by calculations and practice, it has been confirmed that the implementation of the method allows the industrial operation of boards with bottom water to be extended without any waterproofing works.

On new fields in the Republic of Tatarstan, the period of water cut from 20% to 60% in conventional horizontal wells was 18 months, when using the proposed method it was 6 years. For previously exploited fields in the Republic of Tatarstan, during the construction of horizontal sidetracks from the main vertical wellbores, equipped with liners:

- for conventional wells, the initial water cut was 81% and rose to 87% in one year;

- for wells equipped with liners and using the operating modes established by the proposed method, the initial water cut was 63% and rose to 67% in one year, and up to 87% was water cut after 5 years.

The proposed method of developing a formation with bottom water allows to simplify construction and implementation due to the construction of horizontal boreholes from different wells, the absence of reagent injection to form a water barrier and reduce the water cut of production, continuous operation of all horizontal boreholes and the implementation of waterproofing due to the hydrodynamic distribution of flows, resulting in both as a consequence, to the saving of material and technical resources.

Claims (4)

1. A method of developing a formation with bottom water, including the construction of injection and horizontal production wells, drilling of horizontal wells, the first of which is near the oil-water contact, and the second is in the upper part of the oil-saturated formation, injection of a working agent through injection wells, selection of formation products through production wells, characterized in that the first horizontal wellbore is built from an injection well, with perforation for injection directed downward, and the second horizontal wellbore of the production well is equipped with perforations directed upward, while the volume of production from the production wells is maintained at 80-90 % of the injection volume in injection wells. 2. The method of developing a formation with bottom water according to claim 1, characterized in that perforation and perforations in the respective horizontal boreholes of injection and production wells are performed taking into account the injection and withdrawal points, respectively, providing for a uniform distribution of the waterflooding front and withdrawal by an increase in the total area of the transverse cross-sections of perforations or perforations in direct dependence on the distance of the injection point of the working agent and the point of production of the formation, respectively. 3. A method of developing a reservoir with bottom water according to one of paragraphs. 1 or 2, characterized in that the perforation and perforations in the respective horizontal boreholes of injection and production wells are performed by secondary opening with directional perforation. 4. A method of developing a reservoir with bottom water according to one of paragraphs. 1 or 2, characterized in that the perforation and perforations in the respective horizontal boreholes of injection and production wells are carried out by installing appropriate filters in the corresponding open hole with the perforation orientation downwards or perforations upwards.