RU2660973C1 - Method of developing an oil field with a fractured reservoir - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to petroleum industry and can find application in development of an oil reservoir with a fractured reservoir. Method of developing an oil deposit with a fractured reservoir includes drilling a pilot well, determining from the geophysical data in the productive reservoir the prevailing direction of the deposit fracture, drilling from the pilot well of the same multidirectional paired horizontal trunks, that are directed in opposite directions from the well. And the first pair of horizontal trunks is drilled perpendicular to the direction of natural fracturing. In this case after posting of each horizontal barrel by selection, the increase in production rate in the pilot vertical well is determined. Upon completion of the construction of the horizontal trunks, the increment of the debits of the paired trunks is summarized. Two most productive pairs of trunks are selected in the total expression, when viewed from above in the direction of the pairs, vectors are created starting in the pilot vertical borehole, proportional to the total production rate of these pairs with an angle between them not exceeding 90°. Summarize the resulting vectors. Parallel to the direction of the resulting vector, an additional pilot well with several inclined and horizontal unidirectional trunks is constructed, but with different zenith angles having the same length of the exposed section in the deposit. Determine the productivity of each barrel, select the two most productive trunks and in the direction of these trunks in the vertical plane, vectors are constructed with the beginning in an additional pilot well proportional to their production rate, the resulting vectors are summed. Parallel to the direction of the resulting vectors in the direction in the horizontal and vertical planes, the entire reservoir is equipped with producing and injection wells.

EFFECT: technical result is an increase in the efficiency of the development of the oil deposit.

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Description

The invention relates to the oil industry and may find application in the development of an oil reservoir with a fractured reservoir.

There is a method of developing oil deposits in carbonate reservoirs (patent RU No. 2424425, IPC ЕВВ 43/20, published in Bulletin No. 20 of 07/20/2011), including drilling production and injection wells, pumping a working agent through injection and production selection through production wells, studies to determine the prevailing direction of fracturing of the reservoir, zones with minimum and average fracture density, and in areas with minimum and average fracture density with oil-saturated thickness of the formation of at least 10 m but horizontal and / or branched horizontal wells are drilled, and horizontal wells are placed in the formation at an angle of 50-70 ° to the prevailing direction of fracturing of the reservoir, and wells located in the corresponding zones of fracture density at a minimum distance from horizontal and / or branched horizontal wellbores.

There is also a method of developing fractured reservoirs (patent RU No. 2526037, IPC ЕВВ 43/20, published in Bulletin No. 23 of 08/20/2014), including the determination of fracturing or decompression lines of a deposit, the construction of production and injection wells taking into account the fracturing of the reservoir, injection displacing agent into injection wells and oil extraction through production wells, moreover, a section of a deposit with oil-saturated thicknesses of more than 10 m is selected to prevent rapid flooding of produced oil with bottom water, the location of nodes is determined once seals - intersections of decompression lines, production wells are drilled along an uneven grid in the form of vertical wells with penetration into decompression units or in the form of lateral or lateral horizontal shafts with intersection of nearby decompression lines communicated with decompression units, injection horizontal wells are located in compacted carbonate reservoirs, between several decompression nodes perpendicular to the prevailing direction of reservoir fracture.

The disadvantage of these methods is the difficulty in the implementation and construction of industrial wells, since it is difficult to ensure that they get exactly into the decompression units, in addition, the construction of production wells is based on the estimated estimation of the distribution of the formation products without taking into account the determination of its actual migration in the formation.

толщины продуктивного пласта, но не менее 2 м до водонефтяного контакта, точку входа в продуктивный пласт назначают путем определения технической возможности набора кривизны ствола, длину пилотного ствола от точки входа до предполагаемой зоны повышенной трещиноватости выбирают обеспечивающей возможность забуривания второго и третьего ствола с входом в зону повышенной трещиноватости с зенитным углом в интервале 80-95° и с отходом от пилотного ствола не менее 40 м, по результатам проводки пилотного ствола в зоне повышенной трещиноватости определяют ширину этой зоны, длину пилотного ствола ограничивают прохождением зоны повышенной трещиноватости, на основе геологической привязки к пилотному стволу производят забуривание второго ствола на расстоянии, обеспечивающем возможность вскрытия зоны повышенной трещиноватости в кровельной части коридора бурения, с вхождением в зону повышенной трещиноватости с зенитным углом в интервале 80-95°, с отходом от пилотного ствола не менее 40 м, прохождением зоны повышенной трещиноватости в кровельной части коридора бурения и отходом от пилотного ствола не менее 40 м, забуривание третьего ствола производят с противоположной стороны пилотного ствола относительно второго ствола на расстоянии, обеспечивающем возможность вскрытия зоны повышенной трещиноватости в подошвенной части коридора бурения, с вхождением в зону повышенной трещиноватости с зенитным углом в интервале 80-95°, отходом от пилотного ствола не менее 40 м, прохождением зоны повышенной трещиноватости в подошвенной части коридора бурения и отходом от пилотного ствола не менее 40 м, через пробуренную скважину отбирают пластовую продукцию.The closest is a method of developing an oil reservoir with a pore-cavernous-fractured reservoir (patent RU No. 2474679, IPC ЕВВ 43/20, published in bulletin No. 04 of 02/10/2013), including opening the reservoir by drilling a pilot shaft, placing funds for cuts in the pilot shaft with the ability to set the zenith angle for reaching the horizontal section during drilling, lowering the production string, conducting geophysical studies and drilling horizontal trunks from the pilot horizontal shaft in the reservoir, when Before drilling, according to geophysical studies, the dominant direction of natural fractures is determined in the reservoir, the width of the zone of increased fracture is estimated, horizontal trunks are placed mainly perpendicular to the direction of natural fracture with the faces removed at a distance of at least 40 m, individually determined for each horizontal well a drilling corridor in which the drilling ceiling is limited by the roof of the reservoir, and the bottom of the corridor is storm Niya appoint at a distance from the roof no more

the thickness of the reservoir, but not less than 2 m to the oil-water contact, the entry point into the reservoir is determined by determining the technical feasibility of establishing the curvature of the barrel, the length of the pilot barrel from the entry point to the proposed zone of increased fracturing is selected to allow drilling of the second and third barrel with the entrance to the zone increased fracture with an zenith angle in the range of 80-95 ° and with a departure from the pilot shaft of at least 40 m, according to the results of piloting in the zone of increased fracture about limit the width of this zone, the length of the pilot shaft is limited by the passage of the zone of increased fracture, based on geological reference to the pilot shaft, the second shaft is drilled at a distance that makes it possible to open the zone of increased fracture in the roof of the drilling corridor, with entry into the zone of increased fracture with an zenith angle of the interval 80-95 °, with a departure from the pilot shaft of at least 40 m, passing the zone of increased fracture in the roofing part of the drilling corridor and moving away from pi at least 40 m long, the third shaft is drilled from the opposite side of the pilot shaft relative to the second shaft at a distance that makes it possible to open the zone of increased fracture in the bottom of the drilling corridor, entering the zone of increased fracture with an zenith angle in the range of 80-95 °, a departure from the pilot shaft of at least 40 m, passage of an increased fracture zone in the bottom of the drilling corridor and a departure of at least 40 m from the pilot shaft, through a drilled well Plast dissolved products.

The disadvantages of this method are the complexity and high cost of implementation, since it is necessary to comply with a large number of requirements for well construction, while it is practically impossible to implement such a method in deposits located on areas of more than 10 km ² , since for each well it is necessary to conduct research individually, also construction wells is carried out on the basis of the estimated assessment of the distribution of reservoir products without taking into account the determination of its actual migration in the reservoir.

The technical objectives of the invention are to simplify and reduce the cost of the method of developing an oil reservoir with a fractured reservoir, implemented taking into account the direction of the actual migration of products in the reservoir.

Technical problems are solved by the method of developing an oil reservoir with a fractured reservoir, including drilling a pilot well, determining, according to geophysical studies in a productive reservoir, the prevailing direction of fracturing of the reservoir, drilling from the pilot well horizontal wells in the reservoir, at least one of which is drilled perpendicular to the direction of natural fracturing, construction of production and injection wells, injection of a working agent through injection wells and about Forest products through production wells.

What is new is that identical multidirectional paired horizontal wells are drawn from the pilot vertical well, and the paired wells are directed in opposite directions and only the first pair of horizontal wells is drilled perpendicular to the direction of natural fracturing, after each horizontal well is sampled, the increase in production rate in the pilot vertical well is determined. upon completion of the construction of horizontal shafts, the increase in the production rates of paired shafts is summarized, two of the most selected productive pairs of trunks, and when viewed from above in the direction of these pairs, vectors are constructed with the beginning in a pilot vertical well, proportional to the total production of these pairs, with an angle between them not exceeding 90 °, the vectors are summed, an additional pilot well is built in parallel with the direction of the obtained vector the productivity of each of the trunks is determined by several inclined and horizontal unidirectional trunks, but with different zenith angles having the same length of the exposed area in the deposits. va most productive barrel and toward these shafts in a vertical plane built with vectors starting at a pilot vertical well, they are proportional to flow rates are summed derived vectors, and vectors derived parallel to the direction in the horizontal and vertical planes equipped with all reservoir production and injection wells.

In FIG. 1 shows a pilot well from above with paired multidirectional horizontal boreholes with vectors proportional to the total production of paired wells.

In FIG. Figure 2 shows a pilot well in vertical section with differently directed azimuth shafts with vectors proportional to the total production of these wells.

A method for developing an oil reservoir 1 with a fractured reservoir includes drilling a pilot well 2, determining, according to geophysical surveys in the reservoir, the prevailing direction of fracturing of reservoir 1, drilling from a pilot well 2 of the same multidirectional paired horizontal shafts 3 and 3 ', 4 and 4', 5 and 5 '(see patents RU No. 2252563, 2265711, 2333340, etc.), which are directed in opposite directions from well 2. Moreover, the first pair of horizontal shafts 3 and 3' is drilled perpendicular to the direction of natural fracturing . Drilling of oppositely directed shafts 3 and 3 ', 4 and 4', 5 and 5 'excludes errors associated with the accidental hit of one of these shafts 3, 3', 4, 4 ', 5 or 5' in the area of reservoir 1 with different the rest of reservoir 1 with parameters (for example, an oil-bearing lens, a non-reservoir interlayer or the like), when the flow rate is more than 25% in one of the pairs of trunks 3 and 3 ', 4 and 4', 5 and 5 'higher or lower a new well is drilled (not shown in FIGS. 1 and 2) from well 2 parallel to one of the trunks 3, 3 ', 4, 4', 5 or 5 'in this pair, while the production rate of this well is summed with the production rate of the corresponding about the trunk 3, 3 ', 4, 4', 5 or 5 ', with which the spread does not exceed 25%, with a spread of flow rates in several pairs of oppositely directed trunks 3 and 3', 4 and 4 ', 5 and 5' more than 25% drill a new well 2 (this rarely happens, as practice has shown, in no more than 2%). After each horizontal well 3, 3 ', 4, 4', 5 and 5 'is selected, the increase in production rate in the pilot vertical well 2 is determined by selection. Upon completion of the construction of horizontal horizontal wells 3, 3', 4, 4 ', 5 and 5' paired trunks 3 s 3 ', 4 s 4' and 5 s 5 'are summarized. The two most productive pairs of trunks 3, 3 'and 4, 4' are selected in total terms; when viewed from above in the direction of pairs 3, 3 'and 4, 4', vectors 6 and 7 are constructed with the beginning in the pilot vertical well 2, proportional to the total production of these pairs 3, 3 'and 4, 4', with an angle α between them not exceeding 90 ° (α≤90 °). Summarize the obtained vectors 6 and 7, get the vector 8. In parallel with the direction of the obtained vector, an additional pilot well 9 is built with several inclined 10 (Fig. 2), 11 and horizontal 12 unidirectional shafts, but with different zenith angles β, β ₁ and β _2, respectively having the same length L of the exposed area in the reservoir 1. Determine the productivity of each of the trunks 10, 11 and 12, select the two most productive trunks 11 and 12 and in the direction of these trunks 11 and 12 in the vertical plane construct vectors 13 and 14 with the beginning in additional th pilot well 9, proportional to their flow rate, summarize the obtained vectors, obtaining the vector 15. Parallel to the direction of the obtained vectors 15 and 8 (Fig. 1) in the direction in the vertical (Fig. 2) and horizontal (Fig. 1) planes (± 5 ° and ± 10 °, respectively, due to errors in the construction of wells) respectively equip the entire reservoir 1 with producing 16 and injection 17 wells.

An example of a specific implementation.

A pilot well 2 was drilled on fractured reservoir 1. According to geophysical studies, the prevailing fracture direction of reservoir 1 was determined in a productive reservoir. A pair of trunks 3 and 3 'were drilled from well 2 perpendicular to the prevailing fracture, and the total production rate of these trunks 3 and 3' was determined by selection 13.7 t / day Then we drilled trunk 4 and, while other trunks 3 and 3 'were blocked by equipment, we determined the flow rate of this trunk 4, which amounted to 5.4 tons / day, by selection. In a similar way, the flow rates of the remaining trunks were sequentially determined: 4 '(6.0 t / day), 5 (2.3 t / day) and 5' (2.0 t / day). The production rates of pairs of trunks were summed up: 4 s 4 '(11.4 t / day) and 5 s 5' (4.3 t / day). The most productive pairs were 3 and 3 '(13.7 t / day), 4 and 4' (11.4 t / day). When viewed from above in the direction of pairs 3, 3 'and 4, 4', vectors 6 and 7 were constructed with the beginning in the pilot vertical well 2, proportional to the total flow rate of these pairs 3, 3 'and 4, 4', respectively, with an angle between them α≈60 °. The obtained vectors 6 and 7 were summarized, a vector 8 was obtained, parallel to the direction (± 10 ° due to errors during well construction) of which an additional pilot well 9 was built with several inclined 10 (Fig. 2), 11 and horizontal 12 unidirectional shafts, but with different zenith angles β≈60 °, β ₁ ≈75 ° and β ₂ ≈90 °, respectively, having the same length L≈150 m of the exposed area in reservoir 1. The productivity of each trunk is determined 10 (5.4 t / day), 11 ( 7.1 t / day) and 12 (6.4 t / day). The two most productive boreholes 11 (7.1 t / day) and 12 (6.4 t / day) are selected and vectors 13 and 14 are constructed in the vertical plane in the direction of these trunks 11 and 12 with the start in an additional pilot well 9 proportional to their flow rate summarize the obtained vectors 13 and 14, obtaining the vector 15. Parallel to the direction of the obtained vectors 15 and 8 (Fig. 1) in the direction in the vertical (Fig. 2) and horizontal (Fig. 1) planes (± 5 ° and ± 10 °, respectively due to errors in the construction of wells), respectively, equip the entire reservoir 1 with producing 16 and injection 1 7 wells. The working agent (water) is injected through injection wells 17 and the production of reservoir 1 is taken through production wells 16. Compared to the analogue developed at the same reservoir 1, the increase in production was 29%.

The proposed method for the development of an oil reservoir with a fractured reservoir is simple, cheap and effective, as it is implemented taking into account the direction of the actual migration of products in the reservoir.

Claims (1)

A method for developing an oil reservoir with a fractured reservoir, including drilling a pilot well, determining, according to geophysical studies in a productive reservoir, the prevailing direction of fracturing, drilling from a pilot well a horizontal wellbore in a reservoir, at least one of which is drilled perpendicular to the direction of natural fracturing, production and injection wells, pumping a working agent through injection wells and product selection through ext wells, characterized in that the same vertical multidirectional paired horizontal trunks are drawn from the pilot vertical well, and the paired trunks are directed in opposite directions, and only the first pair of horizontal trunks is drilled perpendicular to the direction of natural fracturing, after each horizontal bore is selected, the increase in production flow rate in the pilot vertical well, upon completion of the construction of horizontal shafts, the increase in production rates of paired shafts is summarized, the two most productive pairs of trunks are shouting, and when viewed from above in the direction of these pairs, vectors are constructed with the beginning in the pilot vertical well, proportional to the total production rate of these pairs, with an angle between them not exceeding 90 °, the obtained vectors are summed, parallel to the direction of the obtained vector, an additional the productivity of each of the pilot wells with several inclined and horizontal unidirectional shafts, but with different zenith angles having the same length of the exposed area in the reservoir the two most productive trunks, and in the direction of these trunks in the vertical plane they build vectors with the beginning in the pilot vertical well, proportional to their flow rate, summarize the obtained vectors, and parallel to the direction of the received vectors in the horizontal and vertical planes equip the entire reservoir with production and injection wells.

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