RU2305762C1 - Method for viscous oil or bitumen deposit field development - Google Patents

Abstract

FIELD: oil production, particularly to develop oil or bitumen field, namely to produce viscous oil or bitumen via producing horizontal wells along with reservoir treatment with heat to be supplied through injection horizontal wells.

SUBSTANCE: method involves drilling continuous horizontal well so that well inlet is located over productive reservoir, conditionally horizontal well section extends along strike and well outlet is directed upwards and is inclined from productive reservoir to day surface; installing casing pipe; cementing hole clearance; arranging production string provided with centralizers; injecting heat carrier and producing viscous oil or bitumen. In accordance with the invention productive reservoir thickness spread over field area is defined more accurate. At least one pair of continuous horizontal wells is drilled so that horizontal well sections are parallel and located one over another in vertical plane. The horizontal well sections are spaced a distance, which prevents untimely condensate breakthrough to producing well. Casing pipes having filters are installed within productive reservoir thickness. Then hole clearances of casing pipes are cemented up to productive reservoir roof and heat carrier is injected through upper horizontal injection well from well head and bottom. Simultaneously viscous oil or bitumen is produced via lower horizontal producing well from head and bottom thereof with the use of swab. Distance to horizontal producing well bore path is not less than minimal distance to viscous oil or bitumen reservoir surface or water-bitumen contact line, which increases water-free well operation time.

EFFECT: increased efficiency of viscous oil or bitumen displacement, increased recoverable product amount due to stable and continuous thermal reservoir treatment and effective heat carrier usage, extended vertical and horizontal sweep and due to decreased amount of produced water and condensate content in product volume.

1 ex, 1 dwg

Description

The proposal relates to the oil industry, in particular to the development of oil or bitumen deposits, and in particular to methods for the development of viscous oil or bitumen by producing horizontal wells by thermal exposure to the formation through horizontal injection wells.

A known method of producing high-viscosity oil and natural bitumen by horizontal wells drilled from vertical mine shafts, using thermal effects on the reservoir (RF patent No. 2029077, ЕВВ 43/24, publ. 02.20.1995).

The disadvantage of this method is the low extraction efficiency of viscous oil and bitumen. In addition, the method is complex and energy-intensive in execution.

There is also known a method of oil production, including drilling and placement of horizontal wells in the reservoir, pumping a working agent through the upper horizontal wells, and oil is taken from the lower horizontal well (US patent 5273111, ЕВВ 43/24, publ. 12/28/1993) . Each producing horizontal well is positioned vertically below and horizontally between two corresponding upper horizontal injection wells, and they are parallel to each other. The upper horizontal wells are located near the upper boundary of the reservoir, and the lower production wells are near the lower boundary of the reservoir. The vertical distance between them should be sufficient to maintain pressure differences in the fluid flow. The method is not effective enough in the development and operation of deposits of viscous oil or bitumen. There is no possibility of circulation of a working agent, for example steam. Premature breakthrough of condensate and bottom formation water to the production well is possible.

The closest in technical essence is a method of producing viscous oil during thermal exposure of the formation, including drilling a continuous horizontal well with the placement of the inlet section of the well before the productive formation, conventionally horizontal section of the well along the strike of the productive layer, the output section upward with an inclination from the reservoir to surface, casing installation, cementing of annulus, installation of tubing with centralizers, pumping carrier and selection of viscous oil or bitumen (RF patent No. 2211318, ЕВВ 43/24, publ. 08/27/2003). The coolant is pumped from the inlet and outlet sections of the well, then oil is sampled at the outlet section while continuing to pump the coolant through the inlet section. However, the recovery efficiency remains low due to a decrease in stable heating of the entire volume of the reservoir, selection of condensed steam from the produced products from the beginning of development. When placing a horizontal section of a producing well, the location of the water-bitumen contact boundary (IBC) is not taken into account. In addition, the process is complicated and energy-intensive due to the use of the well for simultaneous injection of the coolant and the selection of viscous oil or bitumen during the selection of oil from the output section and the continued injection of the coolant at the input section.

The technical task is to increase the efficiency of the displacement of viscous oil or bitumen, to increase the volume of production due to stable and continuous heat exposure, increase the coverage of the formation by affecting the entire drainage volume of the injection well, and increase the KPD coolant, increasing the coverage of viscous oil or bitumen reserves by the area and section, as well as by reducing associated water produced and the share of condensate in the volume of products taken.

The technical problem is solved by the method of developing a reservoir of viscous oil or bitumen, including the drilling of a continuous horizontal well with the placement of the inlet section of the well until the productive formation occurs, a conventionally horizontal section of the well along the strike of the reservoir, the outlet section upward with an inclination from the reservoir to the day surface, installation of casing columns, cementing the annulus, installing tubing with centralizers, pumping coolant and selecting viscous oil or bitumen.

New is that they clarify the distribution of productive thicknesses of the reservoir over the area of the reservoir, drill at least one pair of continuous horizontal wells, the horizontal sections of which are placed parallel to one another in a vertical plane at a distance that prevents premature breakthrough of condensate to the production well, and install casing columns with a filter in the interval of the reservoir, cementing the annulus of the columns is carried out to the roof of the reservoir, injection of coolant they are carried out through the upper horizontal injection well from the wellhead and bottom of the well, at the same time they select viscous oil or bitumen through the lower horizontal production well from the wellhead and bottom of the well using a swab, and the trajectory of the producing horizontal well’s bore is not lower than the minimum distance to the bottom of the viscous oil formation or bitumen or PBC, increasing the anhydrous period of operation of wells.

The preliminary patent research on the patent fund and the fund of the scientific and technical library of the TatNIPIneft Institute showed the absence of identical or equivalent technical solutions in comparison with the claimed method. This allows us to conclude that the solution meets the criteria of "novelty" and "inventive step".

The drawing shows a diagram of the development of deposits of viscous oil or bitumen.

The deposit is drilled with wells on a rare grid. They refine the geological structure of the deposit, construct structural maps, maps of general and effective oil-saturated thicknesses, conduct core laboratory tests, determine the oil viscosity, permeability of the reservoir, and the distribution of the productive thickness of the reservoir over the area of the reservoir. Determine the reservoir properties and the degree of cementation of oil or bitumen-bearing rock, hydrodynamic studies with the obligatory determination of reservoir pressure and carry out modeling of the development process. A site with bitumen-saturated thicknesses equal to the sum of the distances from the lower point of the trajectory of the producing horizontal well (HS) to the SEC or the bottom of the reservoir of viscous oil or bitumen, the distance between the parallel trajectories of the producing and injection wells and the vertical distance from the entry point into the producing formation required at curvature in the reservoir to reach the maximum design depth, drill at least one pair of continuous horizontal wells with the output faces to the surface (line g). The trajectory of the trunk of the producing HS (1) is placed in the interval of the most permeable interlayer, while at its lowest point it is located above the bottom of the viscous oil or bitumen or VBK formation (2) at a minimum distance that increases the anhydrous period of well operation, which is determined in each case by based on geohydrodynamic modeling. The injection well (3) is placed parallel to the production well, above it in a vertical plane, at an optimal distance, which prevents premature breakthrough of condensate to the production well, which is determined in each case by hydrodynamic modeling. Wells are drilled, casing strings (4) are installed with a filter in the interval of the reservoir, cementing the annulus of the columns is carried out to the roof of the reservoir. Then, tubing (5) equipped with centralizers is installed inside the casing string. The coolant is pumped through the upper horizontal injection well from the wellhead and bottom of the well, while the selection of viscous oil or bitumen through the lower producing horizontal well (1) is carried out from the wellhead and bottom. The mechanism for displacing viscous oil or bitumen with a coolant is to spread the impact zone over the entire area. The injected coolant tends to the upper part of the reservoir. When heat is transferred, condensate forms, and heated viscous oil or bitumen is displaced under its own weight to the producing well. The injection mode is selected depending on the permeability of the formation, the distribution of productive thicknesses of the formation over the area of the reservoir, the viscosity of oil or bitumen. In order to maximize the use of the effect of gravity, the pressure at the bottom of the injection well is maintained close to hydrostatic. The result is an increase in reservoir coverage by exposure, stable and continuous thermal exposure of the reservoir along the entire length of the horizontal injection well above the production well in the vertical plane, efficient use of the coolant, increase in flow rate and volume of produced products.

The selection of products is carried out using a swab (6) from two ends of the lower producing horizontal well (5). Periodically measure the flow rate of the well, reservoir pressure, the temperature of the reservoir along the length of the horizontal section of the well, the water cut of the product and regulate the operation of the well. The development of a reservoir of viscous oil or bitumen by the proposed method allows to increase the efficiency of displacement of viscous oil or bitumen, to increase the flow rate and production of viscous oil or bitumen by increasing the coverage of the development of reserves by area and section, as well as by reducing associated water produced, including condensate .

An example of a specific implementation.

A natural bitumen deposit, represented by bitumen-rich sandstones, is drilled with a rare grid of wells. Select a site with maximum values of effective oil-saturated thicknesses from 18 to 40 m in the arched parts of the domes of elevations that control the reservoir. The deposit, confined to the Ufa deposits, is of a massive type. The lower boundary for a bitumen-saturated formation is VBC. It has a stepped character. Establish zones for the development of maximum and minimum thicknesses of the bitumen-saturated reservoir. To the periphery of the deposit, the thickness decreases. The viscosity of bitumen averages 12206 MPa · s. Two continuous wells are drilled with the placement of the input sections before the reservoir is laid (drawing), conventionally horizontal sections of the wells along the strike of the reservoir, the outlet sections upward with an inclination from the reservoir with their faces reaching the day surface. The distance between the points of entry into the reservoir of the injection and producing HS is 25 meters. Horizontal sections of wells are placed parallel to one another in a vertical plane. The vertical distance between them is determined by geohydrodynamic modeling, it is 5 meters. The trajectory of the trunk of the producing HS is located at its lowest point 6–7 meters above the VBK — the minimum distance that increases the anhydrous period of operation of the wells. This distance is determined by geohydromodeling. Reducing the distance to the IBD will lead to a breakthrough of bottom water to the wellbore as a result of a sharp difference in the viscosities of oil and produced water. Set casing with a filter in the interval of the reservoir. Cementing the annulus of the columns is carried out to the roof of the reservoir. Then inside the casing string install tubing (tubing), equipped with centralizers. Steam is pumped through the upper injection head from the wellhead and bottom of the well at an injection pressure of 1.7 MPa. At the same time, bitumen is selected through the lower producing HS by swabbing from the wellhead and bottom of the well. Periodically determine the volumes of injected steam and mined bitumen, water cut, pressure at the mouth and bottom of the wells. If necessary, change the modes of steam injection and choose the optimal modes of selection of bitumen.

Additional bitumen production amounted to 4.6 thousand tons per year.

The method of developing a reservoir of viscous oil or bitumen allows to increase the efficiency of use of the coolant by increasing the coefficient of coverage of the formation by the effect of area and section, to increase the flow rate of viscous oil or bitumen, the volume of produced products, to reduce the selection of produced water, to prevent premature breakthrough of condensate to the producing well, provides the possibility of regulating the process of injection and selection of well products and reducing energy costs.

Claims (1)

A method of developing a reservoir of viscous oil or bitumen, including drilling a continuous horizontal well with the placement of the inlet section of the well before the productive formation occurs, a conventionally horizontal section of the well along the strike of the reservoir, upstream section with an inclination from the reservoir to the surface, installing a casing string, cementing the annulus space, the installation of tubing with centralizers, the injection of coolant and the selection of viscous oil or bitumen, characterized in then clarify the distribution of productive thicknesses of the reservoir over the area of the reservoir, drill at least one pair of continuous horizontal wells, the horizontal sections of which are placed parallel to one another in a vertical plane at a distance that prevents premature breakthrough of condensate to the production well, and install casing with a filter in the interval of the reservoir, cementing the annulus of the columns is carried out to the roof of the reservoir, the coolant is pumped through the upper horizontal injection well from the wellhead and the bottom of the well, at the same time they select viscous oil or bitumen through the lower horizontal production well from the wellhead and the bottom of the well using a swab, and the trajectory of the trunk of the producing horizontal well is placed no lower than the minimum distance to the bottom of the viscous oil or bitumen formation , or water-bitumen contact, increasing the anhydrous period of operation of wells.