RU2451789C2 - Method to operate hydrocarbon accumulation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the field of the oil and gas industry and may be used at the final stage of developing massive and bedded-massive accumulations with a cap of large thickness and underlaid with a bottom water actively introducing into a productive part of a reservoir, in particular, to increase a drained area of the bottomhole formation zone - BFZ. The concept of the invention is as follows: the method includes arrangement of a horizontal well, its perforation and formation of cracks with the help of reservoir hydraulic rupturing - RHR, subsequent operation of the horizontal well via cracks of the reservoir rupture. When operating an accumulation with an active bottom water and low oil and gas recovery coefficient in a horizontal well, one or more side shafts are drilled in parallel to the plane of a gas oil of an oil and water contact, where RHR is carried out. At the same time RHR in each interval of the side shaft is carried out from its minimum possible rated value in the farthest section from the horizontal shaft to the maximum possible value in the nearest section. Besides, the maximum rupture pressure is accepted as the value that does not exceed the permissible limit value for breakage of a rock skeleton in the area of this side shaft arrangement. Accumulation operation is carried out with depressions at a reservoir that do not permit tightening of a bottom water.

EFFECT: increased drained area of a productive reservoir BFZ and provision of maximum possible yield of oil or gas from a hydrocarbon accumulation.

1 dwg

Description

The invention relates to the field of oil and gas industry and can be used at the final stage of development of massive and stratum-massive deposits having a large thickness cover and underlain with bottom water actively introduced into the productive part of the formation, in particular, to increase the drainage area of the bottom-hole formation zone (PZP) .

Widely known are the methods of exploitation of hydrocarbon deposits using horizontal wells (HS), with the help of which sidetracks (BS) are drilled from an idle, flooded and low-debit well stock [Berdin TG Design of oil and gas field development using horizontal well systems. - M .: Nedra, 2001. - P.78].

The disadvantage of this method is that when operating a reservoir with active bottom water, flooding of newly drilled BSs is possible, and due to the small drainage area of the bottomhole zone, the final oil and gas recovery coefficient of such BSs is not high.

Of the known methods of exploitation of hydrocarbon deposits close to the claimed one, there is a method including laying a horizontal well, perforating it and forming cracks using hydraulic fracturing (Fracturing) [The first aspects of the appropriateness of using horizontal wells in gas and oil fields of Ukraine. / Boyko R.F., Boyko B.C. - Ivano-Frankivsk, 1997. - P.19].

The disadvantage of this method is that when operating a reservoir with active plantar water, waterlogging of the wells is possible, and due to the small drainage area of the bottomhole zone, the final coefficient of their oil and gas recovery does not exceed 90-92% on average.

One of the closest known methods of exploitation of hydrocarbon deposits to the claimed one is a method comprising laying a horizontal well, perforating it and creating cracks using hydraulic fracturing in a reservoir, carried out sequentially, starting from the end farthest from the vertical section of the well, by isolating each perforated interval from the rest of the column the packer and the subsequent operation of the HS through fracture fractures [US Pat. RF No. 2305755, ЕВВ 43/00, 43/26].

The disadvantage of this method is that when operating a reservoir with active plantar water due to the small drainage area of the bottomhole zone, the final coefficient of their oil and gas recovery does not exceed 90-92% on average.

The closest known method of exploitation of hydrocarbon deposits to the claimed one, selected as a prototype, is a method that includes laying a horizontal well, perforating it and creating cracks using hydraulic fracturing in a reservoir, carried out sequentially, starting from the end farthest from the vertical section of the well, by isolation each perforated interval from the rest of the column with a packer and successively increasing the value of the fracture pressure, starting from the far end of the well, from the minimum possible calculated faces up to the maximum possible value and subsequent operation of the hydraulic system through fractures of the formation fracture, and packers for isolating the perforated intervals are lowered on a flexible pipe (GT), and hydraulic fracturing and preparatory-final work (PZR) for pumping proppant to fix fracture cracks in the open position and wash out proppant residues after completion of hydraulic fracturing are carried out in one cycle by moving the HT along the horizontal section, starting from the far end, while the maximum burst pressure is taken to be a value not exceeding the allowable value for the destruction of the rock skeleton of a given formation, and the operation of the deposit is carried out with depressions on the formation that do not allow pulling the bottom water [US Pat. RF No. 2366805, ЕВВ 43/16, 43/26].

With existing methods for developing and operating fields, it is not possible to increase the drained area of the bottomhole formation zone and to increase the value of the final oil and gas recovery coefficient due to the narrowness of the drained area of the bottomhole zone of one gas station and the mass flooding of production wells due to pulling up the bottom water cone or raising the oil or gas-water contact to the intervals of perforation of wells through leaky cement stone of their annular space. Expensive overhauls to eliminate the influx of formation water and flushing sand plugs in the wells ultimately make the extraction of oil or gas from such a deposit unprofitable. But an increase of only one percent of oil and gas recovery in such fields as Medvezhye, Urengoyskoye and Yamburgskoye will allow additional production of hydrocarbon raw materials in the amount of more than 100 billion m ³ , which is equivalent to the discovery of a new field.

Objectively, the following circumstances do not objectively increase the coefficient of final industrial oil and gas recovery: the need to create pressure drops inside the reservoir itself to ensure oil or gas inflows to the wells, which, in turn, intensifies the flow of formation water, and also leads to the destruction of the reservoir when the reservoir pressure drops and moisturizing it with penetrating formation water.

The challenge faced by the invention is to increase the drainage area of the PPP.

The achieved technical result, which is obtained as a result of the invention, consists in increasing the drained area of the bottomhole formation zone and ensuring the maximum possible production of oil or gas from a hydrocarbon deposit.

The task and technical result are achieved by the fact that in the known method of operating a hydrocarbon deposit, including laying a well, perforating it and forming cracks using hydraulic fracturing, subsequent operation of a well through fracturing fractures, in contrast to the prototype, when operating a deposit with active bottom water and one or several BSs in which hydraulic fracturing is carried out with a low oil and gas recovery coefficient in the horizontal well parallel to the plane of the gas or oil-water contact, while hydraulic fracturing in each BS interval is carried out from min as much as possible of its calculated value in the section farthest from the horizontal trunk to the maximum possible value in the closest section, and the maximum burst pressure is assumed to be a value not exceeding the maximum permissible value for the destruction of the rock skeleton in the area of the location of this side trunk, and the operation of the deposit is carried out at depressions on the reservoir, not allowing the pulling of plantar water. At the same time, packers for isolating the perforated intervals are lowered and installed on the flexible pipe, and hydraulic fracturing and all preparatory-final operations for pumping proppant, fixing the fracture in the open position, and washing out the proppant residues after hydraulic fracturing is completed in one cycle by moving the flexible pipes along the sidetrack, starting from the end farthest from the horizontal wellbore.

A distinctive feature of the claimed invention is the increase in the drained area of the PZP located in a plane parallel to the area of the gas or oil contact.

In FIG. a diagram of the implementation of the proposed method is shown: 1 - a vertical section of a GS, 2 - a horizontal section of a GS, 3 - a gap crack from a GS, 4 - a first BS, 5 - a gap crack from a first BS, 6 - a second BS, 7 - a gap crack from a second BS , 8 - gas or oil-water contact, 9 - productive part of the reservoir; 10 - flooded part of the reservoir, 11 - the roof of the reservoir.

The method is implemented as follows. after completion of drilling and fastening of the horizontal well, its horizontal section 2, which can be located both in the roof 11 of the formation and in the upper productive part 9 of the formation, remote from the flooded part 10 of the formation at a distance of not less than 2-5 m, is perforated in those intervals where it is supposed to carry out hydraulic fracturing. There can be several such perforated intervals, isolated or not isolated from each other by annular packers (not shown).

A flexible pipe (not shown) is lowered into the well with one or more insulation packers (not shown) installed on it, to the farthest from the main vertical portion 1 of the interval of the horizontal portion 2 of the HS. Packing (putting into operation) of insulating packers is carried out, cutting off the selected interval from the rest of the horizontal section of the trunk. After that, in the selected interval, hydraulic fracturing is carried out with the minimum possible calculated value of the fracture pressure. The sand-carrier fluid is pumped into the formed fracture gap 3, fixing the fracture gap 3 with proppant. The isolation packers are unpacked (brought into the transport position) and the remnants of the proppant that did not penetrate the fracture of fracture 3 are removed from the well during its washing. Then the flexible pipe is moved along the horizontal portion 2 of the HS to the next selected interval, closer to the main vertical portion 1, the insulation packers and hydraulic fracturing are again sealed. In the process of hydraulic fracturing, the fracture pressure is successively increased from the minimum possible calculated value at a distance remote from the main vertical section 1 in the interval to the maximum possible, but not exceeding the maximum permissible value at which the reservoir begins to collapse, close to the main vertical section 1 . When carrying out work in this sequence, the condition will be met that allows for hydraulic fracturing and all PZRs to pump proppant, fixing the fracture gap 3 in the open position, and wash out the proppant residues that did not enter the fracture fracture 3 after completion of hydraulic fracturing in one cycle.

In parallel with the plane of the gas or oil-water contact 8, one or more sidetracks are drilled. After that, a flexible pipe (not shown) with one or more insulation packers (not shown) installed on it is reentered into the well. Using a whipstock (not shown) located in the side trunk and designed to guide the flexible pipe into the curved section of the barrel from the main barrel, the flexible pipe is introduced into the selected, for example, the first side barrel 4, move along it to the interval farthest from the horizontal section 2 . In the first side trunk 4, the insulation packers are sealed, cutting off the selected interval from the rest of the first side trunk 4. After that, the hydraulic fracturing is carried out in the selected interval of the first side trunk 4, sand-sand carrier is pumped into the resulting fracture 5, fixing the fracture 5 with proppant . The insulation packers are unpacked and the remnants of the proppant that did not penetrate the fracture of fracture 5 are removed from the well during its flushing. Then the flexible pipe is moved along the first sidetrack 4 to the next selected interval, closer to the horizontal portion 2 of the horizontal well, again sealing the insulation packers and hydraulic fracturing are performed.

In this case, hydraulic fracturing in each interval of the sidetrack is carried out from the minimum possible calculated value in the farthest from the horizontal section 2 GS to the maximum possible value in the closest section, and the maximum fracture pressure is assumed to be a value not exceeding the maximum permissible value for the destruction of the rock skeleton in the location zone of this BS, and the operation of the deposit is carried out with depressions on the formation, not allowing the pulling of plantar water.

Then, according to a similar technology, hydraulic fracturing is carried out in all other BS wells, for example, the second BS 6. The subsequent operation of a horizontal well located in a reservoir with active bottom water and a low oil and gas recovery coefficient is carried out through fractures.

The implementation of the claimed invention allows to increase the coefficient of final oil and gas recovery by increasing the drained area of the bottomhole formation zone and at the same time not to flood the well, while hydraulic fracturing and all preparatory-final operations for pumping proppant, fixing the fracture gap in the open position, and leaching of proppant residues after completion of the hydraulic the fracture is carried out in one cycle by moving the flexible pipe along the side trunk, starting from the end farthest from the horizontal well bore azhiny.

Claims (2)

1. A method of operating a hydrocarbon deposit, including laying a horizontal well, perforating it and forming cracks using hydraulic fracturing, subsequent exploitation of a horizontal well through fracture fractures, characterized in that when operating a deposit with active bottom water and low oil and gas recovery in a horizontal well parallel to the gas or oil-water contact plane, one or more sidetracks are drilled in which hydraulic fracturing is performed, and this hydraulic fracturing in each interval of the sidetrack is carried out from the minimum possible calculated value in the section farthest from the horizontal trunk to the maximum possible value in the closest section, and the maximum fracture pressure is assumed to be a value not exceeding the maximum permissible value for the destruction of the rock skeleton in the zone of location of this lateral trunk, and the exploitation of the deposit is carried out with depressions on the formation, which do not allow pulling the bottom water. 2. The method of operating a hydrocarbon deposit according to claim 1, characterized in that the packers for isolating the perforated intervals are lowered and installed on a flexible pipe, and the hydraulic fracturing and all preparatory-final operations for pumping proppant, fixing the fracture gap in the open position, and leaching proppant residues after completion of hydraulic fracturing are carried out in one cycle by moving a flexible pipe along the sidetrack, starting from the end farthest from the horizontal wellbore.

Images