RU2788189C1 - Method for developing oil deposits - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to the oil industry, namely the development of oil deposits by a joint grid of injection, production and horizontal wells. The method for developing an oil deposit includes a seismic uplift arch, structure strike lines, drilling a prospecting or exploration well on a seismic uplift arch and conducting geophysical studies in it, determining reservoir properties of the formation, saturation of the formation with fluids, water-oil contact boundary - WOC. After determining the reservoir properties of the reservoir, the saturation of the reservoir with fluids, the boundaries of the WOC, the line AB is drawn through the arch of the uplift, the line AB, perpendicular to the strike line of the structure, and the line CD, located along the strike line of the structure, the lengths of the AB and CD lines are measured to the WOC line on the scale of the structural map, then the structure coefficient is calculated by the formula: K_str= L₁/L₂, where L₁ is the length of the CD line, L₂ is the length of the AB line, then the total area of economically viable recoverable oil reserves is calculated for four vertical and one horizontal wells, then a rhombus with diagonals d₁ and d₂ is built , while the lengths of the diagonals d₁ and d₂ are determined by the formulas:

, d₂=d₁⋅K_str, where S_rec is the area of economically viable recoverable oil reserves for four vertical and one horizontal wells, K_str is the structure coefficient, as well as the lengths of the diagonals d₁ and d₂ are converted to the map scale, then one vertical injection well is placed at the corners of the rhombus, and in the middle of each side rhombus, a vertical production well is placed, then at the ends of the larger diagonal of the rhombus, circles are built with a radius equal to half the length of the side of the rhombus, then a horizontal production well is placed along the longer diagonal of the rhombus, while the bottomhole and the entrance to the formation of the horizontal production well are located at the points intersection of the diagonal of the rhombus with the circle, then on the structural map any one vertical production well located on the side of the rhombus is combined with the bottom hole point of the drilled exploratory or exploration well, while orienting the trunk of the horizontal production well of the rhombus parallel to the strike line of the structure, passing the first row of rhombuses is drawn along the strike line of the structure to the boundaries of the WOC, combining the sides of adjacent rhombuses and orienting the horizontal wellbores of the production wells of the rhombuses parallel to the strike line of the structure, then the required number of rows of rhombuses is designed until the entire area of the structure is filled up to the WOC line.

EFFECT: increasing the efficiency of oil deposit development, uniformity of oil reserves production, maintaining high rates of reservoir recovery due to the optimal location of the bottomholes of vertical injection, vertical and horizontal production wells along the area of distribution of the oil-bearing reservoir, as well as expanding technological capabilities.

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Description

The invention relates to the oil industry, namely the development of oil deposits by a joint grid of injection, production and horizontal wells.

A known method of cluster drilling of oil deposits based on horizontal and vertical wells (see Erokhin V.P., Shchavelev N.L., Naumov V.I., Fadeev E.A. Experience and problems in the construction of horizontal wells. Oil industry, No. 9 , 1997, pp. 32-35). According to this method, the drilling of an oil deposit is carried out according to an areal scheme, producing wells are constructed with horizontal wells, and injection wells - with vertical wells. In this case, well clusters are placed at the locations of injection wells.

The disadvantage of this method is the low technical and economic efficiency in fields with low-permeability reserves, associated with the drilling of a large number of wells, as well as the construction of a large number of well pads, equal to the number of injection wells, and therefore the cost of construction, as well as the corresponding infrastructure. And entailing negative impacts on the environment.

Also known is a method for developing an oil deposit with multilateral wells (patent RU No. 2330156, IPC E21V 43/16, publ. injection wells and selection of products from production wells. At the same time, drilling of at least one producing and one horizontal injection wells in formations with a permeability of not more than 2 mD and a distance between horizontal wellbores of at least 50 m is envisaged. Production wells are located in maximum oil-saturated thicknesses. The angle between the maximum principal stress of the formation and the direction of the horizontal wellbores of production and injection wells is from 30° to 60°. The number N of stages of multiple hydraulic fracturing is selected based on the condition N=1+L/100, where L is the length of the horizontal wellbore, and is rounded up to a larger integer. The total number of horizontal wells is drilled in quantity, on the basis that the specific initial geological oil reserves per one horizontal well are at least 50 thousand tons.

The disadvantage of this technology is the low technical and economic efficiency in fields with low-permeability reserves, associated with the risks of rapid watering of horizontal wells in more permeable interlayers and loss of recoverable reserves, with significant costs for drilling directional wells to produce the remaining pillars of oil.

The closest is the method of developing the development of oil deposits with low-permeability reservoirs (patent RU No. 2760112, IPC E21V 43/30, 43/16, publ. structures, drilling a prospecting or exploratory well on the arch of a seismic uplift and conducting geophysical studies in it, determining the reservoir properties of the reservoir, the saturation of the reservoir with fluids, the boundaries of the water-oil contact (OWC). After calculating the economically viable specific oil reserves per one horizontal design well, the specific area of the deposit is determined that provides one horizontal well with recoverable reserves, a square cell is built with an area equal to the deposit area that provides one horizontal well with recoverable reserves. Next, a grid is built with square cells with an area equal to the area of the deposit, providing one horizontal well with recoverable reserves, directional and horizontal wells are located, while first directional wells are drilled closest to the exploration well, then horizontal wells are drilled in the center of the square cells, formed by directional wells, and the horizontal wellbores are located in a perpendicular-cross direction to each other with the condition that the entry and bottomhole points of the horizontal wells correspond to the intersection points of the diagonals within one square cell, the bottomhole of the exploration well is aligned on the structure with the developed grid so that the exploration well was in the center of a square cell with horizontal wells, then by rotating around a vertical axis that passes through the location of the exploration well, the grid is oriented so that the horizontal wells are directed at an angle of 90° and 180° to the l the lines of the structure strike, the grid of wells ends with the location of the bottoms of directional wells to the contour of the oil-water contact.

The disadvantage of this method is the low technical and economic efficiency in reservoirs with heterogeneous low-permeability formations, associated with the restriction on the location of horizontal wells only at an angle of 90° relative to each other and an increase in the probability of skipping more permeable areas in the areal distribution of the lithologically heterogeneous reservoir of the development object.

The technical tasks are to increase the efficiency of oil deposit development, the uniformity of oil reserves production, maintaining high rates of reservoir recovery due to the optimal location of the bottomholes of vertical injection, vertical and horizontal production wells along the area of distribution of the oil-containing reservoir, as well as expanding technological capabilities.

Technical problems are solved by the method of developing an oil deposit, including determining the seismic uplift arch, the strike line of the structure, drilling a prospecting or exploratory well on the seismic uplift arch and conducting geophysical studies in it, determining the reservoir properties of the formation, the saturation of the formation with fluids, the boundaries of the water-oil contact - WOC.

, d₂=d₁*K_стр, где S_изв - площадь экономически рентабельных извлекаемых запасов нефти для четырех вертикальных и одной горизонтальной скважин, K_стр - коэффициент структуры, а также длины диагоналей d₁ и d₂ переводят в масштаб карты, далее размещают по одной вертикальной нагнетательной скважине на углах ромба, а в середине каждой стороны ромба размещают вертикальную добывающую скважину, затем на концах большей по длине диагонали ромба строят окружности с радиусом, равным половине длины стороны ромба, далее размещают горизонтальную добывающую скважину вдоль большей по длине диагонали ромба, при этом забой и вход в пласт горизонтальной добывающей скважины расположены в точках пересечения диагонали ромба с окружностью, затем на структурной карте совмещают любую одну вертикальную добывающую скважину, расположенную на стороне ромба, с точкой забоя пробуренной поисковой или разведочной скважины, при этом ориентируют ствол горизонтальной добывающей скважины ромба параллельно линии простирания структуры, проектируют первый ряд ромбов вдоль линии простирания структуры до границ ВНК, совмещая стороны смежных ромбов и ориентируя горизонтальные стволы добывающих скважин ромбов параллельно к линии простирания структуры, после этого проектируют необходимое количество рядов ромбов до заполнения всей площади структуры до линии ВНК.What is new is that after determining the reservoir properties of the formation, the saturation of the formation with fluids, the boundaries of the OWC, the line AB is drawn through the arch of the uplift, perpendicular to the strike line of the structure, and the line CD, located along the strike line of the structure, the lengths of the lines AB and CD are measured to the OWC line on the scale of the structural map, then the structure coefficient is calculated by the formula: Kstr \u003d L ₁ /L ₂ , where L ₁ is the length of the CD line, L ₂ is the length of the AB line, then the total area of economically viable recoverable oil reserves is calculated for four vertical and one horizontal wells, then a rhombus with diagonals d ₁ and d ₂ is built, while the lengths of the diagonals d ₁ and d ₂ are determined by the formulas:

, d ₂ \u003d d ₁ *K _str , where S _izv is the area of economically viable recoverable oil reserves for four vertical and one horizontal wells, K _str is the structure coefficient, as well as the lengths of the diagonals d ₁ and d ₂ are transferred to the map scale, then placed one vertical injection well at the corners of the rhombus, and in the middle of each side of the rhombus, a vertical production well is placed, then at the ends of the larger diagonal of the rhombus, circles are built with a radius equal to half the length of the side of the rhombus, then a horizontal production well is placed along the longer diagonal of the rhombus , while the bottomhole and the entrance to the formation of a horizontal production well are located at the points of intersection of the diagonal of the rhombus with the circle, then on the structural map any one vertical production well located on the side of the rhombus is combined with the bottomhole point of the drilled exploration or exploration well, while orienting the trunk of the horizontal production well rhombus parallel to the line pro structure erasure, the first row of rhombuses is designed along the structure strike line to the OWC boundaries, combining the sides of adjacent rhombuses and orienting the horizontal production wells of the rhombuses parallel to the structure strike line, after that, the required number of rhombus rows is designed until the entire area of the structure is filled up to the OWC line.

In FIG. 1 shows a general diagram of the structure of an oil deposit.

In FIG. 2 shows a diamond diagram with four vertical injection wells, four vertical production wells, and one horizontal production well.

In FIG. 3 shows a design scheme for rows of rhombuses until the entire area of the reservoir structure is filled up to the WOC line.

In FIG. 4 shows the layout of project wells on the deposit structure.

The method of developing oil deposits is carried out as follows.

Preliminarily, on a structure mapped by ground seismic works using the common depth point method - CDP (for example, in 2D, 3D, 4D, etc.) the occurrence elements are determined - the seismic uplift arch, the strike line of structure 1.

Next, a prospecting or exploratory well 2 is drilled on the arch of the seismic uplift and geophysical studies are carried out in it, including electrometric, radioactive, acoustic studies.

According to the results of geophysical studies, the reservoir properties of the reservoir, the saturation of the reservoir with fluids, the boundaries of the water-oil contact (WOC) 3 are determined.

The line AB 4, perpendicular to the strike line of structure 1, and the line CD 5, located along the strike line of structure 1, are drawn through the arch of the uplift, the lengths of the lines AB and CD are measured to the VNK line on the scale of the structural map (Fig. 1).

Next, the structure coefficient is calculated by the formula:

where L ₁ is the length of the CD 5 line, L ₂ is the length of the AB 4 line.

Then the total area of economically viable recoverable oil reserves is calculated for four vertical and one horizontal wells for designing a grid of wells.

Next, a rhombus is built with diagonals d ₁ 7 and d ₂ 8, while the lengths of the diagonals d ₁ and d ₂ are determined by the formulas:

where S _izv is the area of economically viable recoverable oil reserves for four vertical and one horizontal wells, K _str is the structure coefficient, then one vertical injection well is placed at the corners of the rhombus, and the lengths of the diagonals d ₁ and d ₂ are converted to the map scale.

Next, one vertical injection well 9 is placed at the corners of the rhombus 6, and a vertical production well 10 is placed in the middle of each side of the rhombus.

Then, at the ends of the longer diagonal of the rhombus, circles 11 are built with a radius equal to half the length of the side of the rhombus.

Next, a horizontal production well 12 is placed along the larger diagonal of the rhombus, while the bottomhole and the entrance to the reservoir of the horizontal production well is located at the intersection point of the diagonal of the rhombus 6 with the circle 11.

Then, on the structural map, any one vertical production well 10, located on the side of the rhombus 6, is combined with the bottomhole point of the drilled exploration or exploration well 2, while the horizontal production wellbore 12 of the rhombus 6 is oriented parallel to the strike line of the structure 1.

The first row of rhombuses 6 is designed along the strike line of the structure 1 to the boundaries of the OWC 3, combining the sides of adjacent rhombuses 6 and orienting the horizontal shafts of production wells 12 of the rhombuses 6 parallel to the strike line of the structure 1.

After that, the required number of rows of diamonds 6 is designed until the entire area of the structure is filled up to the VNK line 3.

Diamonds 6 are removed from the design grid of wells.

The proposed technique for constructing planned wells makes it possible to put the development object into operation with a high rate of recovery of recoverable oil reserves while maintaining the initial reservoir pressure, the location of the horizontal well inside the cell eliminates the rapid flooding of the drainage zone of the horizontal wellbore due to the redistribution of the injected fluid flows to vertical production wells and the alignment of the displacement front , which ensures uniform development of reserves and an increase in the oil recovery factor, including in fields with heterogeneous low-permeability reservoirs, due to the symmetrical arrangement of the bottomholes of project wells, which also allows the commissioning of hydrocarbon deposits of any size and reduces the likelihood of missing more permeable areas in areal distribution lithologically heterogeneous reservoir of the development object.

The location of vertical injection wells in the corners of the rhombus makes it possible to form a directed filtration flow, eliminates the possibility of missing more permeable areas and the formation of stagnant zones not involved in active development inside the rhombus, which ensures high rates of fluid reserves recovery from the field.

An example of practical application.

Preliminarily, on the structure of the licensed area mapped by ground seismic works using the common depth point method - CDP (for example, in 2D, 3D, 4D, etc.) the occurrence elements were determined - the set of seismic uplift at an absolute mark - 1200m, the strike line of the structure 1 - sublatitudinal prostrations.

Further, a exploratory well 2 was drilled on the arch of the seismic uplift and geophysical surveys were performed in it, including electrometric, radioactive, and acoustic surveys.

Based on the results of geophysical studies, a conclusion was obtained on the reservoir properties of the reservoir (porosity 0.15, oil saturation capacity 10 m, saturation of the reservoir with oil was 0.7), a potential development target in the Kizel horizon of the Tournaisian stage and the absolute mark of WOC 3 - 1220 m were determined.

On the structural map, line AB 4, perpendicular to the strike line of structure 1, and line CD 5, located along the strike line of structure 1, were drawn through the arch of the uplift, and the lengths of lines AB and CD were measured to the line VNK 3 on a scale of the structural map equal to 1:25000. AB = 20 cm, CD = 45 cm.

Next, the structure coefficient Kstr=2.25 was calculated.

Then, the total area (Sev) of economically viable recoverable oil reserves is calculated for four vertical and one horizontal wells for designing a grid of wells. Sizv \u003d 525452 m ² according to any known formulas.

Next, a rhombus is built with diagonals d ₁ 7 and d ₂ 8, while d ₁ \u003d 683 m, d ₂ \u003d 1537 m, the lengths of the diagonals d ₁ and d ₂ were transferred to the scale of the map d ₁ \u003d 683/250 \u003d 2.7 cm,

d ₂ \u003d 1537/250 \u003d 6.1 cm.

Next, one vertical injection well 9 was placed at the corners of the rhombus 6, and a vertical production well 10 was placed in the middle of each side of the rhombus.

Then, at the ends of the larger diagonal of the rhombus, circles 11 were constructed with a radius equal to half the length of the side of the rhombus.

Next, a horizontal production well 12 was placed along the longer diagonal d _{2 of} the rhombus 6, while the bottomhole and the entrance to the formation of the horizontal production well is located at the point of intersection of the diagonal of the rhombus 6 with the circle 11.

Then, on the structural map, one vertical production well 10, located on the side of the rhombus 6, was aligned with the bottom hole of the drilled prospecting or exploration well 2, while the horizontal production wellbore 12 of the rhombus 6 was oriented parallel to the strike line of the structure 1.

The first row of diamonds 6 was designed along the strike line of structure 1 to the boundaries of OWC 3, combining the sides of adjacent diamonds 6 and orienting the horizontal wellbores of production wells 12 of diamonds 6 parallel to the strike line of structure 1.

After that, the required number of rows of diamonds 6 is designed until the entire area of the structure is filled up to the VNK line 3.

Diamonds 6 are removed from the design grid of wells.

The result was a design grid of production and injection wells for the development of an oil field.

Thus, this method increases the efficiency of oil deposit development, ensures uniformity of oil reserves production, maintains high rates of reservoir recovery due to the optimal location of bottomholes of vertical injection, vertical and horizontal production wells over the area of distribution of the oil-containing reservoir, and also expands technological capabilities.

Claims (1)

A method for developing an oil deposit, including determining a seismic rise arch, a structure strike line, drilling a prospecting or exploratory well on a seismic rise arch and conducting geophysical studies in it, determining the reservoir properties of the formation, the saturation of the formation with fluids, the boundary of the water-oil contact - WOC, characterized in that after determining the reservoir properties of the reservoir, the saturation of the reservoir with fluids, the boundaries of the OWC, the line AB, perpendicular to the strike line of the structure, and the line CD, located along the strike line of the structure, are drawn through the arch of the uplift, the lengths of the lines AB and CD are measured to the OWC line on the scale of the structural map, then the structure coefficient is calculated by the formula: K _str =L ₁ /L ₂ , where L ₁ is the length of the CD line, L ₂ is the length of the AB line, then the total area of economically viable recoverable oil reserves is calculated for four vertical and one horizontal wells, then a rhombus is built with diagonals d ₁ and d ₂ , with e the length of the diagonals d ₁ and d ₂ is determined by the formulas:

, d ₂ \u003d d _{1 ⋅K} str , where S _izv is the area of economically viable recoverable oil reserves for four vertical and one horizontal wells, K _str is the structure coefficient, as well as the lengths of the diagonals d ₁ and d ₂ are transferred to the map scale, then placed one vertical injection well at the corners of the rhombus, and in the middle of each side of the rhombus, a vertical production well is placed, then at the ends of the larger diagonal of the rhombus, circles are built with a radius equal to half the length of the side of the rhombus, then a horizontal production well is placed along the longer diagonal of the rhombus , while the bottomhole and the entrance to the formation of a horizontal production well are located at the points of intersection of the diagonal of the rhombus with the circle, then on the structural map any one vertical production well located on the side of the rhombus is combined with the bottomhole point of the drilled exploration or exploration well, while orienting the trunk of the horizontal production well rhombus parallel to the line pro structure erasure, the first row of rhombuses is designed along the structure strike line to the OWC boundaries, combining the sides of adjacent rhombuses and orienting the horizontal production wells of the rhombuses parallel to the structure strike line, after that, the required number of rhombus rows is designed until the entire area of the structure is filled up to the OWC line.

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