RU2778703C1 - Method for development of reservoir non-uniform by permeability from roof to sole, saturated with oil and underlying water - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the oil and gas industry; it can be used for the operation of reservoirs non-uniform by permeability with plantar water. The method includes the completion of the horizontal “termination” of a well in an interval of a productive reservoir by a combined structure including a part near to a roof, represented by a column cemented using centralizers, and a far part located closer to a sole, equipped with a filter. Near and far parts are separated by a cementing back-up packer. The near part is located in a low-permeable part of the reservoir, the far part is located in a high-permeable part, through which, after the development and commissioning of the well, the reservoir is operated until the maximum watering of extracted products. Further, in an interval of a buffer section, between spent and untreated parts of the horizontal “termination”, a blind packer plug is installed, selective opening is performed by perforating intervals of a non-perforated part of a wellbore and low-volume hydraulic fracturing (hereinafter – HFR) of the reservoir is sequentially carried out through them. The determination of a number of cycles or stages of low-volume HFR is made based on the length of the horizontal part of the well in the low-permeable part of the reservoir.

EFFECT: completeness of oil recovery from a reservoir non-uniform by permeability is increased, and processes of oil reserves production are controlled.

1 cl, 3 dwg

Description

The invention relates to the oil and gas industry, and can be used in the construction of horizontal production wells for the exploitation of heterogeneous formations in terms of permeability, which improves from the roof to the sole (the roof is low-permeable, the sole is highly permeable) with the presence of underlying bottom water.

In the conditions of developing oil deposits with increasing absolute permeability of the reservoir from the roof to the bottom and the presence of underlying water, a common drawback of common horizontal well designs aimed at exploiting the reservoir throughout the entire length of the horizontal “end” is the difficulty of subsequent cost-effective development of a low-permeability roof after advanced development and watering of the lower part of the formation that is highly permeable.

In this regard, in order to increase the completeness of the development of oil reserves in reservoirs characterized by increasing absolute permeability from the top to the bottom and the presence of underlying water, the task of improving well designs does not lose its relevance, allowing sequential operation first of the more highly permeable lower, then, after flooding and its isolation, low-permeability upper (roof) part of the formation.

There is a known method for improving the efficiency of oil recovery by completing horizontal "ends" of wells with a layout with different diameters and densities of perforations [Galiullin M.M., Azamatov M.A., Vdovin V.A. Modern methods of enhanced oil recovery in fields with hard-to-recover reserves. Scientific and technical journal Georesources, 2010. - P. 16]. The method consists in equipping a horizontal "end" of the well with a structure consisting of sections with different diameters of perforations. To prevent cross-flows between sections, they are separated by swellable packers. The diameter and density of the filtration channels are selected from the following conditions: the highly permeable part of the reservoir - the indicators are minimal, in places of reduced reservoir permeability - the diameter and density of the filtration channels are maximum.

The disadvantage of this method is that when developing oil deposits with increasing absolute permeability of the reservoir from the roof to the bottom and the presence of underlying water, when placing a smaller and larger number of perforations, respectively, in the intervals of the high-permeability and low-permeability parts of the reservoir, in one case additional filtration resistance that disrupts the uniformity of oil reserves production and restrains the potential recovery of the reservoir, and in the second it is impractical due to the extremely low inflow due to the low absolute permeability of the reservoir.

When operating low-permeability formations (absolute permeability less than 10 mD) with horizontal wells, multi-stage hydraulic fracturing assemblies are used. A set of liners and variations of approaches to the development of such wells has a large number.

The following layout options are widely used:

- blind liner with interval hydraulic sandblasting and hydraulic fracturing;

- descent of the ball assembly of multistage hydraulic fracturing (with soluble/insoluble) balls and ports, movable/non-movable sleeves.

The disadvantage of such arrangements is the interval (selective) impact on the formation and low efficiency for formations of small thickness, having a highly permeable bottom part with underlying water.

For geological conditions, when the productive formation is represented by a small thickness and heterogeneous in permeability, which improves from the top to the bottom, the author's conclusion was obtained that in order to ensure the completeness of the development of oil reserves by a horizontal well, the drilling of which was carried out with the opening of the low-permeability and high-permeability parts of the formation, a separate exploitation of these intervals, since during their joint development, the decrease in oil recovery is associated with a significant lag in the development of oil reserves in the top (low-permeability) part of the reservoir compared to the high-permeability.

In view of this, a combined version of the liner tooling is required, which will include an assembly section with a filter part in the reservoir interval with high permeability, as well as a blind liner for hydraulic fracturing or a multi-stage hydraulic fracturing, which will allow in the future, after watering the filter part, to carry out intensification through low-volume hydraulic fracturing in a low-permeability reservoir. interval.

The proposed invention solves the problem of increasing the completeness of oil recovery of a reservoir that is heterogeneous in terms of permeability (improving absolute permeability from the roof to the bottom) with the presence of bottom water, as well as controlling the process of developing oil reserves over time.

The problem is solved by the fact that, unlike standard layouts of horizontal wells, the proposed method provides for the completion of horizontal wells at the construction stage with a structure that separates the horizontal "end" in the interval of the productive formation, depending on the permeability, into several parts (the filter part in the formation interval with high permeability and a blind liner for hydraulic fracturing or a multi-stage hydraulic fracturing section for a low-permeability interval) that exploit the reservoir sequentially, first with a filter section, after watering and isolation with a plug packer, the low-permeability part of the reservoir is operated with a low-volume hydraulic fracturing, then the development process is carried out and the well is restarted in work.

This approach provides an increase in the completeness of oil recovery, technical simplicity and reliability of isolation of the flooded area in the absence of re-influence of the cement slurry on the productive formation by eliminating complex multi-stage approaches for conducting RIR.

What is new is that, in order to solve the problem, a horizontal well is introduced into development, initially completed with a combined liner and prepared for interval (controlled) development of a productive formation section that is heterogeneous in absolute permeability, which further provides for the simplicity of work to isolate watered intervals without the need for cementing additional columns, cutting of columns, which reduces operating costs and time for additional work.

The essence of the proposed method

For geological conditions, when the productive formation along the section is represented by a small thickness and heterogeneous in permeability, which improves from the top to the bottom, with the presence of underlying water, to increase the completeness of its oil recovery, at the construction stage, horizontal wells are completed with a combined layout that separates the horizontal “end” into interval of the reservoir into several parts, each of which is planned to work in stages, first - the far part (a filter section is provided for the high-permeability part of the reservoir), then the near one (for the low-permeability part of the reservoir, a cemented section is provided for hydraulic fracturing or a multi-stage hydraulic fracturing section). Due to the presence of underlying water, the intensification of the low-permeability roof part of the formation is envisaged by conducting a small-volume hydraulic fracturing (5-10 tons). Next, the process of development and re-launch of the well is carried out.

In FIG. 1, 2, 3 schematically and sequentially shows the process of implementing the proposed method for developing a productive formation section that is heterogeneous in absolute permeability with the presence of underlying water.

Technically, the implementation takes place as follows, after drilling a horizontal well 1 (not shown in Fig. 1), the production string 3 is run using centering devices (not shown in Fig. 1), in the remote part of the wellbore, the column is represented by a filter 5, in the interval from the cementing packer 4 and above, the production casing 3 is fixed to the wellhead with cement mortar 2. Next, the interior of the cement packer 4 is drilled, the interior of the well is flushed, the development process is carried out and the well is put into operation.

After watering the well production to the limit value, in the interval before the cementing packer 4, a plug packer 6 is installed, which isolates the exhausted part of the horizontal "end" from the rest of the horizontal well.

Further, in the interval closest to the mouth of the part of the horizontal "end" to the packer-plug, 7 previously defined sections are opened by perforation, hydraulic fracturing of the formation 8 is carried out at intervals, the development process is carried out and the well is restarted. The number of cycles or stages of operations for perforation and hydraulic fracturing is produced based on the length of the horizontal part of the well in the low-permeability part of the formation.

The proposed method for developing a reservoir that is heterogeneous in terms of permeability and is saturated with oil and underlying bottom water allows:

- increase the completeness of oil recovery by increasing the production of oil reserves in the low-permeability part of the reservoir by a horizontal well, initially ready for interval operation of the reservoir without the need for further complex repair and isolation work with a change in the initial well design;

- to improve the technological efficiency of isolation of flooded intervals along the length of the horizontal "end" without the need for cementing an additional column, repeated cutting of the column, multi-stage installation of complex sealing elements, by initially completing the well at the construction stage with a structure for interval development, the presence of a buffer section between the exhausted and undeveloped parts of the horizontal "end", which excludes the circulation of fluid in the reservoir behind the string, prompt and reliable cut-off of the flooded area by pumping a bridging compound and installing a plug packer in the interval of the buffer section;

Brief description of the drawings

The accepted designations in Fig. 1, 2, 3: 1 - horizontal well, 2 - cement ring, 3 - production casing, 4 - annular cementing packer, 5 - filter, 6 - plug packer, 7 - perforation interval, 8 - hydraulic fracturing intervals.

An example of the implementation of the proposed method

An oil deposit with bottom water is being developed by vertical and horizontal wells in a terrigenous reservoir at a depth of 1870 m in Upper Cretaceous deposits. The active well stock for the reservoir: 1557 directional wells, 16 horizontal wells and 223 sidetracks with a horizontal “end”. Average reservoir properties of a productive formation penetrated by wells: effective porosity 22%, absolute permeability coefficient 0.005-0.25 μm ² (5-250 mD), effective oil-saturated thickness 9 m. Oil density 0.860 g/cm ³ , formation water density 1.014 g/ cm ³ . To increase the production of oil reserves from flooded vertical wells, sidetracks are drilled with a horizontal “end” along the roof and central part of the productive formation, followed by completion with a filter. Insufficient efficiency of oil recovery by sidetracks with a horizontal “end” is due to a significant lag in the recovery of oil reserves in the top part of the reservoir, which is low-permeable, in comparison with the high-permeability middle and bottom intervals of the reservoir, the latter of which is represented by a water-saturated reservoir. In the context of the need to increase the completeness of oil recovery of the low-permeability roofing part of the formation, a developed method was applied on two new sidetracks, providing for the completion of the horizontal "end" with a combined liner, consisting of a filter for the high-permeability part of the formation, and a cementing section for the low-permeability section for subsequent hydraulic fracturing or a multistage hydraulic fracturing assembly section with sliding ports (Fig. 1-3). According to the calculations performed using geological and hydrodynamic modeling, it was found that after the development of oil reserves in the high-permeability part of the reservoir by the far part of the horizontal "end", the completion of its isolation, perforation and low-volume hydraulic fracturing in the near part of the horizontal "end", the cumulative oil production in comparison with in the usual way of well completion with a filter along the entire length of the horizontal "end" is increased by at least 15%.

Claims (1)

A method for developing a formation with a heterogeneous permeability, increasing from the roof to the bottom, saturated with oil and underlying bottom water, including the completion of the horizontal "end" of the well in the interval of the productive formation with a combined design for interval production, including the part closest to the roof, represented by a column cemented using centralizers, and a far part, located closer to the bottom, equipped with a filter, while the near and far parts are separated by a cementing casing packer, characterized in that the near part, represented by a cemented casing, is located in the low-permeability part of the formation, the far part, equipped with a filter, is located in the high-permeability part reservoir through which, after the development and putting the well into operation, the reservoir is operated until the maximum watering of the produced product, after which, in the interval of the buffer section between the depleted and undeveloped parts of the horizontal "final a blind packer plug is installed, selective opening by perforation of the intervals of the non-perforated part of the wellbore, and successively low-volume hydraulic fracturing of the formation with a proppant injection volume of 5-10 tons is carried out through them, while determining the number of cycles or stages of low-volume hydraulic fracturing is carried out based on the length of the horizontal part of the well in the low-permeability part of the reservoir, then carry out the process of development and re-launch of the well into operation.

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