RU2731973C1 - Development method of oil deposits by radial well netting - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry and can be used in development of multi-layer oil deposits. Method involves selection of a multilayer deposit. Drilling of wells is performed on selected deposit at grid. Well grid is compacted. Horizontal boreholes are located in radial direction. At that, deposit is drilled by vertical wells with distance between wells of 500–2,000 m. Wellhead of each of vertical wells is arranged on separate platform. One of the sites is selected and not more than 20 horizontal wells are drilled in the radial direction from the corresponding vertical well of this site. Horizontal boreholes in productive formation are made with length of 150–1,500 m. In plan these bores are arranged at angle of 10–180° to each other. In the profile each horizontal borehole is placed in the bed with the most efficient oil-saturated thickness. This achieves maximum coverage of formations both in area and thickness. Similar operations are carried out at all sites, by drilling the deposit with horizontal wells in radial direction from the corresponding vertical wells. In each of formations the minimum distance in plan between horizontal boreholes of adjacent sites is 250 m. Oil production is controlled using dual operation – DO between appropriate formations. Procedure for application of DO, on which formations and at what time, is determined by means of hydrodynamic modeling of development and selection of best scenario of development of reserves.

EFFECT: higher oil recovery of multi-layer oil deposit.

1 cl, 1 dwg

Description

The invention relates to the oil industry and can be used in the development of multilayer oil deposits.

A known method of developing massive oil deposits with layer-by-layer heterogeneity, including the development of vertical production and injection wells, built on a grid of wells, construction of additional shallow wells, injection of an agent into production wells and selection of products from production wells. Shallow wells are drilled from additional injection and production wells with a bit diameter of 144 mm, which are drilled from the surface with a mesh compaction up to 1-4 hectares / well, and shallow shafts are drilled across the fractured formation with a length equal to 2-3 thicknesses of the formation, followed by casing and the secondary opening of the productive formation, after which, before the launch of additional wells into operation in the flooded layers of the formation, water isolation works are performed from their shallow shafts, and acid treatment in oil-bearing wells (RF patent No. ).

The closest in technical essence to the proposed method is a method for the development of multilayer deposits with hard-to-recover oil reserves using the sealing grid method, including drilling wells along the grid, sealing the grid of wells, drilling horizontal sidetracks, and withdrawing products from wells. In the most elevated part of the structure of a multilayer reservoir, one vertical or directional well is drilled, then two or three conventional circles are drawn from this well, the first of which has a radius of 100-300 m, and each subsequent circle is 100-300 m away from the previous one, along the circumferences at an equal distance from each other, respectively, two or three groups of 6-8 vertical and / or directional wells are drilled, and the points of entry into the wells are located on the line of the circles, in general, the wells of one group are placed relative to the other with the achievement of maximum coverage deposits by area, all wells are drilled to the lower layer, while the secondary opening is carried out in the layer with the lowest reservoir permeability, after reducing the oil flow rate of one of the wells to less than 1 t / day, this well is transferred to the reservoir with the highest permeability, with a subsequent decrease the oil flow rate of this well to a value of less than 1 ton / day, it is transferred to simultaneously-section full operation of the remaining formations, and in one of the remaining formations a horizontal sidetrack with a length of 200-600 m is performed in the radial direction from the original central well, similar operations are performed for all wells, the horizontal sidetrack is not drilled in the initial central well (RF patent No. 2678337 , cl. E21B 43/14, E21B 43/30, publ. 01/28/2019 - prototype).

A common disadvantage of the known methods is the low coverage of the reservoirs, especially if the reservoirs only partially coincide in structural terms. As a result, oil recovery remains low.

The proposed invention solves the problem of enhancing the oil recovery of multilayer oil deposits.

The problem is solved by the fact that in the method of developing oil deposits with a radial grid of wells, including the selection of a multilayer reservoir, drilling wells along the grid, compaction of the grid of wells, placement of horizontal wellbores in the radial direction, the use of simultaneous operation methods (WEM), product selection from wells , according to the invention, the deposit is drilled with vertical wells with a distance between the wells of 500-2000 m, and the mouth of each of the vertical wells is placed on a separate site, one of the sites is selected and no more than 20 horizontal wells are drilled in the radial direction from the corresponding vertical well of this site, and horizontal wells in the pay zone are 150-1500 m long, horizontal wells in the plan are placed at an angle of 10-180є to each other, and in profile each of the horizontal wells is placed in the formation with the highest effective oil-saturated thickness, thereby reaching the maximum possible coverage reservoirs both in area and in thickness, similar operations are carried out at all sites, drilling the reservoir with horizontal wells in the radial direction from the corresponding vertical wells, and in each of the layers the minimum distance in plan between horizontal wellbores of adjacent sites is 250 m, production adjustment oil reserves are carried out using the WEM between the corresponding layers, and the implementation of the WEM in which formations and at what time is determined using hydrodynamic modeling of development processes and the selection of the best scenario for developing reserves.

The essence of the invention.

To efficiently develop a multilayer oil reservoir, it is necessary to achieve maximum coverage for each of the reservoirs. The situation is aggravated if the layers only partially coincide structurally. Existing technical solutions do not fully allow for the most complete recovery of oil reserves from such a deposit, as a result of which the oil recovery factor of the deposit remains low. The proposed invention solves the problem of enhancing the oil recovery of multilayer oil deposits. The problem is solved as follows.

FIG. 1 shows a plan diagram of a reservoir with layers and placement of wells drilled into the corresponding reservoir. Designations: A, B - oil-saturated strata of the deposit; I, II, III - vertical wells; 1, 2, 4, 9, 10, 11, 12, 13, 14 - horizontal wells, the horizontal wells of which were drilled in formation A; 3, 5, 6, 7, 8 - horizontal wells, horizontal wells of which were drilled in formation B; X, Y, Z - platforms where wellheads are located; h - minimum distance in plan between horizontal wellbores of adjacent sites X, Y, Z.

The method is implemented as follows.

A multi-layer oil reservoir is selected, represented by several objects that coincide in whole or in part in the structural plan. For example, the reservoir is represented by two layers: upper A and lower B (figure 1). The reservoir is drilled with vertical (including directional) wells, for example, I, II, III along a sparse uniform or irregular grid with a distance of 500-2000 m between wells. The mouth of each vertical well is placed on a separate site X, Y, Z respectively.

According to calculations, when the distance between vertical wells is less than 500 m, for most reservoirs, the placement of horizontal wells according to the considered method between vertical wells does not lead to an increase in oil recovery compared to drilling vertical wells instead of horizontal ones. The reason is interference from adjacent wells. When the distance between vertical wells is more than 2000 m, the reservoir coverage and, accordingly, the oil recovery factor decreases.

Next, select one of the sites, for example, X, and in the radial direction from the corresponding vertical well I, no more than 20 horizontal wells are drilled, for example, wells 1-5. Moreover, horizontal boreholes in the productive formation are made with a length of 150-1500 m. Horizontal boreholes of wells 1-5 are positioned in plan at an angle of 10-180є to each other, and in profile each of the horizontal boreholes is placed in a formation with the highest effective oil-saturated thickness. For example, horizontal boreholes of wells 1, 2, 4 are placed in reservoir A, and horizontal boreholes of wells 3 and 5 are placed in reservoir B. With this arrangement of horizontal boreholes, the maximum possible coverage of reservoirs A and B is achieved both in thickness and in area.

According to the modeling of the development processes of multilayer oil deposits of various configurations, the placement of more than 20 horizontal wells leads to a decrease in the increase in oil recovery due to the interference of wells and a decrease in economic efficiency. With the length of horizontal wells in the reservoir less than 150 m, the reservoir coverage is significantly reduced, which also leads to a decrease in oil recovery. When horizontal wells are longer than 1500 m, their effective length decreases, i.e. the ratio of the "working" barrel length to the total. When horizontal wellbores are placed in the plan at an angle of less than 10 к to each other, the interference of the wells leads to a decrease in oil recovery. In this case, an angle of more than 180є is not possible, because the angle between horizontal trunks is always considered the smallest.

Similar operations are carried out at sites Y and Z, drilling the reservoir with horizontal wells 6-11 and 12-14 in the radial direction from the corresponding vertical wells II and III. Suppose horizontal wellbores 9-14 are placed in reservoir A, and horizontal wellbores 6-8 are placed in reservoir B. Moreover, in each of layers A and B, the minimum distance h in plan between horizontal wellbores of adjacent sites X, Y, Z is 250 m.

According to calculations, when the distance h in plan between horizontal wellbores of adjacent sites is less than 250 m, wells interference occurs, which reduces oil recovery.

The regulation of the production of oil reserves is carried out using the WEM between the corresponding layers, and the implementation of the WEM in which formations and at what time is determined using hydrodynamic modeling of development processes and the choice of the best scenario for developing reserves.

Development is carried out until the full economically viable development of the deposit.

The result of the implementation of this method is to increase the oil recovery of multilayer oil deposits.

Examples of specific execution of the method.

Example 1. Multilayer oil reservoir is represented by two layers: upper A and lower B (figure 1). Layers A and B overlap in structural terms. The lower reservoir B is represented by carbonate deposits, the average absolute permeability is 40 mD, the average oil-saturated thickness is 7 m, the depth of the reservoir top is 1520 m, the initial reservoir pressure is 15 MPa, the oil viscosity in reservoir conditions is 20 mPa s. Above, there is formation A, represented by terrigenous sediments, the average absolute permeability is 300 mD, the average oil-saturated thickness is 5 m, the depth of the formation top is 1270 m, the initial formation pressure is 13 MPa, the oil viscosity in the formation conditions is 60 mPa s.

The deposit is drilled with vertical and directional wells I, II, III along a sparse grid with a distance between wells of 2000 m. The mouth of each of the vertical wells is placed on a separate site X, Y, Z, respectively.

Next, site X is selected and 5 horizontal wells 1-5 are drilled in the radial direction from the corresponding vertical well I. Moreover, horizontal boreholes of wells 1-5 in the productive formation are made with a length of 250-500 m. Horizontal boreholes of wells 1-5 are positioned in plan at an angle of 30-160º to each other. Horizontal wellbores in profile are placed in the formation with the highest net pay thickness characteristic of the given zone. So, wells 1, 2, 4 are placed in stratum A (since in stratum B in these zones the thickness is less), and the horizontal boreholes of wells 3 and 5 are placed in stratum B (since in stratum A in these zones of thickness smaller). With this arrangement of horizontal wells, the maximum possible coverage of layers A and B is achieved, both in thickness and in area.

Similar operations are carried out on sites Y and Z. From site Y in the radial direction from the corresponding vertical well II, 6 horizontal wells 6-11 are drilled, the horizontal wells of which are made with a length of 250-750 m and are positioned in plan at an angle of 30-80º to each other ; in profile, horizontal boreholes 9, 10, 11 are placed in reservoir A, and horizontal boreholes 6, 7, 8 are placed in reservoir B. From site Z in the radial direction from the corresponding vertical well III, 3 horizontal wells 12-14 are drilled, horizontal boreholes which are made in length from 750-1250 m and in the plan are located at an angle of 30-50º to each other; in profile, horizontal wellbores 12, 13, 14 are placed in formation A.

Moreover, in each of the layers A and B, the minimum distance h in plan between horizontal wellbores of adjacent sites X, Y, Z is 250 m.

Wells I-III and 1-14 are being commissioned.

Based on the considered deposit, taking into account the data of the drilled wells I-III and 1-14, a geological model is built, the geological reserves of oil are specified. After a year of operation, the deposits are built a hydrodynamic model and adapted to the development history. Then the forecasting of the development scenarios is simulated. It is determined that the greatest oil recovery is ensured by development, in which the implementation of equipment for simultaneous separate production (OPA) is carried out from the second year of operation for wells 3, 6, 7, 8 with the connection of reservoir A. From the third year, equipment for OPO is introduced at well 4 s connection of reservoir B. In the tenth year, wells 3 and 6 are transferred to the injection of waste water, both in reservoir A and in reservoir B.

Example 2. Perform as example 1. The deposit is characterized by different geological and physical characteristics, dimensions and is represented by three layers. The deposit is drilled with 5 vertical wells with a distance between the wells of 500 m. The mouth of each of the vertical wells is placed on a separate site. One of the sites is selected and 4 horizontal wells are drilled in the radial direction from the corresponding vertical well. Moreover, the horizontal boreholes of these wells in the productive formation are made with a length of 150-300 m and are positioned in plan at an angle of 10-180º to each other. Horizontal wellbores in profile are placed in the formation with the highest net pay thickness characteristic of the given zone. Similar operations are carried out at other sites.

Example 3. Perform as example 1. The deposit is characterized by other geological and physical characteristics, dimensions and is represented by five layers. The deposit is drilled with 10 vertical wells with a distance between the wells of 2000 m. The mouth of each of the vertical wells is placed on a separate site. One of the sites is selected and 7 horizontal wells are drilled in the radial direction from the corresponding vertical well. Moreover, the horizontal boreholes of these wells in the productive formation are made with a length of 800-1000 m and are positioned in plan at an angle of 30-60º to each other. Horizontal wellbores in profile are placed in the formation with the highest net pay thickness characteristic of the given zone. Similar operations are carried out at other sites.

Development is carried out until the full economically viable development of the deposit.

As a result of the development, which was limited to achieving a water cut of the reservoir up to 98%, 968 thousand tons of oil were produced, the oil recovery factor (ORF) for the field as a whole was 0.412 unit fraction. According to the prototype, all other things being equal, 881 thousand tons of oil were produced, the oil recovery factor was 0.375 unit units. The increase in oil recovery factor according to the proposed method is 0.037 unit fractions.

The proposed method makes it possible to increase the oil recovery factor of a reservoir represented by several objects that partially coincide in structural terms (multilayer reservoir), to increase the coverage of reservoirs and the production of oil reserves.

Application of the proposed method will allow solving the problem of increasing oil recovery of multilayer oil deposits.

Claims (1)

A method of developing oil deposits with a radial grid of wells, including selection of a multilayer reservoir, drilling wells along a grid, compaction of a grid of wells, placement of horizontal wellbores in a radial direction, the use of simultaneous operation techniques - WEM, selection of products from wells, characterized in that the deposit is drilled out vertical wells with a distance between the wells of 500-2000 m, and the mouth of each of the vertical wells is placed on a separate site, one of the sites is selected and no more than 20 horizontal wells are drilled in the radial direction from the corresponding vertical well of this site, and horizontal wells in the productive formation are performed with a length of 150-1500 m, horizontal boreholes in the plan are placed at an angle of 10-180º to each other, and in profile each of the horizontal boreholes is placed in the formation with the highest effective oil-saturated thickness to achieve the maximum possible coverage of the strata both in area and in the area, similar operations are carried out at all sites, drilling the reservoir with horizontal wells in the radial direction from the corresponding vertical wells, and in each of the layers the minimum distance in plan between horizontal wellbores of adjacent sites is 250 m, WEM techniques are used to regulate the production of oil reserves between the corresponding formations, and on which formations and at what time is determined using hydrodynamic modeling of development processes and the choice of the best scenario for the development of reserves.

Images