RU2753334C1 - Method for developing multi-layer gas deposits fields with low-permeability reservoirs - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention relates to methods for extracting gas from drilling wells at several horizons and can be used in the gas production industry in the development of multi-layer gas fields composed of low-permeable reservoirs and separated by fluid-resistant rocks. The method involves drilling an inclined-directional well with an ascending end of the trunk. In this case, the well profile is previously divided into six zones. When drilling in the first zone, a set of the zenith angle of the well profile is provided, in the second zone, the well profile is flattened, in the third zone, the zenith angle of the well profile is reset, in the fourth zone, the zenith angle of the well profile is stabilized, in the fifth zone, the well profile is rotated, with a further set of the zenith angle in the sixth zone, while the profile is rotated in the fifth zone starting from the roof of the target reservoir with a deepening into it, but without reaching its lower stratigraphic boundary.

EFFECT: increase in the efficiency of joint operation of productive horizons of multi-layer gas fields, composed of low-permeable reservoirs, separated by fluid-resistant rocks, increasing the productivity of wells and creating conditions for effective removal of accumulated liquid to the daytime surface, due to the set of the zenith angle in the sixth zone of the well profile.

1 cl, 1 dwg

Description

The invention relates to methods of gas production from wells at several horizons and can be used in the gas production industry in the development of multilayer gas fields, folded by low-permeable reservoirs and separated by seals.

A method for the development of multilayer gas fields is known from the prior art [RU 2377396, IPC Е21В 43/14, published on December 27, 2009], including the construction of separate production wells for each development target, connection of wells operating different development targets to a single pipeline network. Field development begins with the exploitation of lower gas deposits with a higher initial reservoir pressure, and overlying deposits are included in development when the current wellhead pressure of the wells draining the lower deposits drops to the initial wellhead pressure of the wells draining the overlying deposits.

The disadvantage of this method is that it is applicable only to the Cenomanian deposits, where the permeability of gas-saturated reservoirs is very high. Gas reserves concentrated in the Turonian are difficult to recover, primarily because the permeability of gas-saturated rocks is tens of times lower than in the Cenomanian, therefore gas inflows are insignificant, and its development using vertical and directional wells traditional for the Cenomanian is impractical. for relatively low production rates, which do not exceed 30-50 thousand meters per day, which is below the level of profitability.

The closest technical solution to the claimed invention and selected as a prototype is the method of development and development of a multilayer field with low reservoir reservoirs [RU 2560763, IPC Е21В 43/00, published 09/03/2014]. The method includes drilling a directional well with an ascending end, running a production string equipped with a liner, after which the ascending section of the production string is equipped with a filter, the blind part of the casing string is isolated from the filter packer with a stage cementing collar. In this case, in the well, the opening of the sections of the productive formations is carried out with a given zenith angle - first along a descending path, and then along an ascending trajectory. This achieves the maximum length of the productive horizon opening, the maximum gas flow rate and joint exploitation of the productive horizons.

The disadvantage of the known technical solution is that the method provides for double opening of the productive horizon by drilling a well with approximately equal descending and ascending sections of the profile, which, taking into account the high vertical and lateral variability of the Turonian deposits in conditions of shallow vertical depths, does not allow the most effective positioning of the wellbore in the productive section.

The technical problem to be solved by the claimed invention is to increase the efficiency of the development of multilayer gas fields with low-permeability reservoirs.

This problem is solved by the fact that the method of developing multilayer gas fields with low-permeability reservoirs includes drilling a directional well with an ascending end of the wellbore, running a production string equipped with a liner, equipping the descending and ascending section of the production string with filters, installing a packer with a stage cementing collar to isolate filter and "blind" parts of the casing. The method differs from the known analogs in that the well profile is preliminarily divided into six zones in accordance with the expected geological structure of the target layers. When drilling in the first zone, the maximum intensity of the zenith angle of the well profile is provided, in the second zone, the maximum possible flattening of the borehole profile is carried out and the zenith angle is maintained until entering the third zone, in the third and fourth zones, after confirming the intersection of the bottom of the upper target layer, a gradual reset is performed. the zenith angle of the well profile by 4-5 degrees and its stabilization before entering the fifth zone, in the fifth zone the well profile is turned, with a further set of the zenith angle in the sixth zone to the point where the bottom hole intersects the top of the reservoirs in the upper target formation, while the profile is turned in the fifth zone, it is carried out, starting from the top of the reservoir located at the bottom of the lower target layer, with a deepening into it, but without reaching its lower stratigraphic boundary.

A positive technical result, provided by the above-disclosed distinctive features of the method, is an increase in the efficiency of joint exploitation of productive horizons of multilayer gas fields, composed of low-permeable reservoirs, separated by seals, due to the location of the well profile in the productive section, taking into account the high vertical and lateral variability of reservoirs in small conditions. vertical depths. An additional positive result is an increase in the productivity of the wells and the creation of conditions for the effective removal of the accumulated fluid to the day surface, due to the increase in the zenith angle in the sixth zone of the well profile.

The invention is illustrated in the drawing, where the figure shows the profile of the well, divided into six zones in accordance with the expected geological structure of the target layers.

The method of developing multilayer deposits with low-permeability reservoirs is as follows.

Initially, the well profile is conventionally divided into six zones 1, 2, 3, 4, 5 and 6 in accordance with the expected geological structure of the target layers. When drilling in zone 1, the maximum possible intensity of the zenith angle of the well profile is provided until zone 2 is reached at point 7, starting at the stratigraphic boundary 8 of the top of the upper target formation 9 with high porosity and permeability properties located between points 7 and 10. In zone 2, in in the interval between points 7 and 10, the borehole profile is flattened, increasing the zenith angle, while the angle can be changed in the range from 1 to 2 °. In zone 3, in the interval between points 10 and 11, at the stratigraphic boundary 12 corresponding to the top of the interval of impermeable rocks (seals) 13, and in zone 4, in the interval between points 11 and 14, on the stratigraphic boundary 15 of the top of the lower target layer 16, consisting of from reservoirs with impaired filtration and storage properties, respectively, the zenith angle is dropped in the range from 1 to 2 ° and the well profile is stabilized, thereby correcting penetration through impermeable and poorly permeable rocks. In zone 5, in the interval between points 14 and 17, containing the target reservoir, the well profile is turned (arc between points 14-17), with a further set of zenith angle in zone 6 to point 18 of the reservoir top of the upper target layer 9, while the profile is turned in zone 5, it is carried out starting from the top 19 of the target reservoir with a deepening into it, but without reaching its lower stratigraphic boundary 20.

At the last stage, the production string or liner, equipped with filters, is run into the descending and ascending sections of the well, packers are installed with a stage cementing sleeve to separate the filter and "blind" parts of the casing, after which the well development begins. An example of the implementation of the method.

Before drilling, based on the available information on the geological structure of the section, preliminary modeling of the wellbore location in the target section was carried out taking into account geological and technological limitations: the depth of the top of the upper target layer, the total vertical thickness of the target layers, the design length of the well profile, the value of the angle of attack. on the top of the target formation, as well as the conditions for the location of the bottom point of the profile (turn) of the well in the productive sediments. A directional well was drilled with an upward profile. In the process of drilling, to control and correct the trajectory of the wellbore in the formations, the actual geological and geophysical information obtained by various known methods was used. The opening of the productive layers was carried out along the most efficient trajectory, consisting of a flat descending section and a steep ascending one. A casing equipped with gas filtration systems (filters) was run into the well. In accordance with the actual geological structure of the section in the area of the well, and in order to isolate the clay intervals, the filter sections of the casing were separated by a "blind" casing. To separate the productive and non-productive parts of the section, packers with a stage cementing sleeve were installed in the top of the target formation. In order to reduce the detrimental effect of water-based drilling fluids on the productive sediments, an oil-based solution was used during the initial opening of the target reservoirs. The application of the proposed method made it possible to increase the flow rate of the well by 20%.

Improving the efficiency of development of multilayer gas fields with low-permeability reservoirs in the claimed method is achieved by creating a well profile consisting of a flat descending section and a steep ascending section, which allows the wellbore to be optimally positioned in productive sediments, which makes it possible to jointly operate several reservoirs with different properties, removal accumulated at the bottomhole and in the inflection zone of the fluid, and also increases the potential of the reservoir system due to their double opening.

Claims (1)

A method of developing multilayer gas fields with low-permeability reservoirs, including drilling a directional well with an ascending end of the wellbore, running a production string equipped with a liner, equipping a descending and ascending section of a production casing with filters, installing a packer with a stage cementing collar, characterized in that the profile of the well pre-divided into six zones in accordance with the expected geological structure of the target formations, while drilling in the first zone, a set of the zenith angle of the well profile is provided, in the second zone, the well profile is flattened and the zenith angle is maintained until entering the third zone, in the third and fourth zones, after confirming the intersection of the bottom of the upper target layer, resetting the zenith angle of the well profile by 4-5 degrees, stabilizing the zenith angle of the profile before entering the fifth zone, in the fifth zone, turning the well profile, with a further set zenith angle in the sixth zone to the point where the bottom of the well crosses the top of the reservoirs in the upper target layer, while the profile turn in the fifth zone is carried out starting from the top of the reservoir located at the bottom of the lower target layer, with a deepening into it, without reaching its lower stratigraphic borders.

Images