RU2387815C1 - Method to develop oil accumulation in laminar carbonate reservoirs - Google Patents

Abstract

FIELD: oil-and-gas industry. ^ SUBSTANCE: invention relates to development of oil accumulation by horizontally branched wells, in particular, of thin carbonate formations-reservoirs with depth making, at least, two meters each. Substance claim: Proposed method comprises arranging, drilling vertical branched fill-in well and branched vertical extraction well with horizontal bores, injecting displacement fluid through vertical fill-in wells and draining oil through branched horizontal extracting well. In compliance with this invention, at least, two thin carbonate formations-reservoirs are selected arranged in close proximity to each other and separated by clay bands. Propagation of oil-filled depth of reservoirs over the area of oil accumulation are determined, areas with maximum tolerable oil-filled depth of reservoirs making at least two meters each are selected. Now, branched horizontal well is drilled to simultaneously develop two and more formations-reservoirs, horizontal wellbores are arranged in most permeable intervals of formations. Note here that wellbores are directed along increase in oil-filled depth, while wellbore length is taken to be inversely proportional to its permeability. ^ EFFECT: higher efficiency, increased oil extraction, reduced costs. ^ 1 ex, 2 dwg

Description

The proposed method relates to the field of development of oil deposits by branched horizontal wells, in particular thin carbonate reservoirs with a thickness of at least two meters, and can be used both in the initial and final stages of their development.

A known method for the development of oil deposits by drilling horizontal shafts from vertical or directional shafts of producing wells in the reservoir. Two open horizontal bores located in a vertical plane, one above the other, are drilled from a cased well, the lower open horizontal well being drilled in the interlayer with higher permeability, and the upper one with lower permeability, followed by hydrochloric acid treatment (BER) of the bottom-hole zones (RU patent 2181430, IPC Е21В 43/16, published on 04/20/2002).

The disadvantage of this method is that for the drilling of such wells, it is necessary to have a large total oil-saturated thickness for posting two shafts, allowing the lower shaft to be drawn at a distance of not less than 10 meters from the surface of the oil-water contact (WOC). The method is used only for the development of deposits of a massive-layered type.

The closest in technical essence to the proposed one is a method for developing oil deposits in layered carbonate reservoirs (patent RU 2305758, IPC ЕВВ 43/14, published on September 10, 2007, bull. No. 25). The method includes isolating the upper reservoir in the carbonate reservoirs with effective oil-saturated thicknesses of at least 3 m and the lower massive reservoir with total oil-saturated thicknesses of more than 15 m coinciding in plan, a profile overlap is installed between the selected reservoirs, the casing is lowered to the roof of the lower reservoir with a filter in the productive parts of the upper deposit, cement the annulus, open the upper production interval, lower two elevators, drill vertical and / or oblique branched horizontal injection wells in accordance with the design grid.

Place horizontal trunks of injection wells parallel to the plane of horizontal trunks of production wells. In the presence of sanitary protection zones and oil-saturated thickness of the reservoir of the upper reservoir of more than 5 m, a multi-hole horizontal well is to be drilled. The injection of the working agent is carried out cyclically in the upper and lower deposits during their simultaneous and separate operation.

The disadvantage of this method is that in conditions of a heterogeneous multilayer field, with the coincidence in terms of several thin reservoir layers, some of them remain undeveloped. This leads to a decrease in the efficiency of field development.

The technical task of the proposed method is to increase the efficiency of development of oil deposits in layered carbonate reservoirs, increase the coverage of oil production and oil recovery, reduce the cost of building wells due to the simultaneous development of oil reserves from two or more thin carbonate reservoirs with a thickness of at least two meters. The development of unproductive formations, which are mainly return objects, vertical or directional wells, is often economically unprofitable.

The technical problem is solved by the method of developing oil deposits in layered carbonate reservoirs, including the placement, drilling of vertical injection and branched horizontal production wells with horizontal shafts, injection of displacing fluid through vertical injection wells and selection of products through a branched horizontal production well.

It is new that at least two thin carbonate reservoirs are identified that coincide in plan, are located in close proximity to each other, separated by clay interbedded bridges, clarify the distribution of oil-saturated thicknesses of reservoirs by reservoir area, and select areas with maximum permissible effective oil-saturated thickness of reservoir layers of at least two meters each, then a branched horizontal well is drilled to simultaneously develop two or more reservoir layers moat horizontal trunks placed in the most permeable formations intervals, wherein the barrels carried in the direction of increasing the effective net pay thickness, and the barrel length inversely proportional to its permeability.

The preliminary patent research on the patent fund of the technical library of the TatNIPIneft Institute showed the absence of identical or equivalent technical solutions in comparison with the claimed object. At the same time, the distinguishing features of the claimed technical solution are significant, which allows us to conclude that it meets the criteria of "novelty" and "inventive step".

Figure 1 presents a section of thin layered carbonate oil-saturated reservoirs with a branched horizontal well. Figure 2 presents the layout of wells in oil deposits in layered carbonate reservoirs.

The inventive method is carried out in the following sequence.

The reservoir (1, 1, 2) in layered carbonate reservoirs is drilled with vertical wells on a rare grid. Clarify the geological structure of the reservoir, build structural maps, maps of effective oil-saturated thicknesses, conduct core laboratory tests, determine the permeability, porosity of the formation, the distribution of oil-saturated thickness of the formation over the area of the reservoir. Thin carbonate reservoirs are distinguished, which coincide in plan, are located in close proximity to each other, separated by clay interlayers. Clarify the distribution of oil-saturated thickness of reservoir layers over the area of the reservoir. Select areas within which it is possible to distinguish at least two reservoir layers with maximum permissible effective oil-saturated thicknesses of at least two meters each (2, 3 of Fig. 1). Conduct hydrodynamic studies with the obligatory definition of reservoir pressure and carry out modeling of the development process.

Then drill at least one branched horizontal production well for the simultaneous development of two or more reservoirs (4 figure 1, 2). From a vertical shaft, at least two horizontal shafts (5, 6 of Figs. 1, 2) are drilled, placed in one or more vertical planes. Horizontal trunks are placed in the most permeable intervals of the reservoirs, and the direction of the trajectory of each horizontal trunk depends on the distribution of the oil-saturated thickness of each reservoir in the area, and the length of the trunks is inversely proportional to their permeability.

The choice of the number of horizontal shafts depends on the geological structure of the reservoir, the presence of thin carbonate reservoirs, and their capacitive-filtration properties.

Clay interlayers between the reservoirs overlap profile overlap (7 figure 1). In the process of drilling a branched horizontal well, the path of horizontal shafts through the reservoirs is corrected.

The well is developed and put into operation. Then, additional wells from the number of previously drilled wells (8 and 9 of FIGS. 1, 2) are mastered for injection and production vertical wells are commissioned (10-16 of FIG. 2). The number of injection wells should correspond to the number of horizontal trunks of a branched production well.

The wells (8 and 9 of FIGS. 1, 2) are selected at a step distance of the design grid from the horizontal trunks of a branched production well, and the flow of injected fluid from the injection well (8 of FIG. 2) should be directed perpendicular to the horizontal trunk of the branched production well (6 of FIG. 1) in the lower layer. The flow of injected fluid from the injection well (9 of FIG. 2) should be directed perpendicular to the horizontal trunk of the branched producing well (5 of FIG. 1) in the upper formation. This contributes to a longer anhydrous period of the well. Then, oil is taken from a branched horizontal production well with subsequent measurement of oil, water, and reservoir pressure rates.

The creation of a reservoir pressure maintenance system will allow more uniform displacement of oil from reservoirs.

In reservoir formations, a significant length of horizontal boreholes increases the filtration surface necessary for the production to flow into the well, whose area is an order of magnitude larger than the filtration surface of the bottom of a vertical well. The degree of connectivity of the wellbore with the formation increases, and the likelihood of a more perfect opening of the formation by the well increases. With minor depressions, oil production rates of producing wells increase. Reducing depression in the reservoir helps to reduce associated water production and increase oil recovery. Increasing the coverage of oil production of carbonate reservoirs in reservoir deposits contributes to a significant increase in oil production rates of producing wells.

Concrete example

The implementation of this method, consider the example of a site characteristic of deposits of the Verey horizon. The site was drilled with producing and injection wells on a sparse grid, they were equiped.

On the oil deposits (1, Figs. 1, 2), a section with two reservoir layers was identified, effective oil-saturated thickness of the layers is on average 2.5 and 4.2 m each. The reservoirs are located in close proximity along the section (2, 3 of Fig. 1). Between themselves they are separated by a clay layer 4.1 m thick. Separate exploitation of formations is unprofitable.

An increase in effective oil-saturated thicknesses in the upper layer (2 of FIG. 1) to 3.5 m is traced in the southeast direction from the mouth of a branched horizontal well, and in the lower layer (3 of FIG. 1) to 5.3 m in the east. The permeability of reservoir rocks in the lower layer in the considered section of the reservoir is 0.122 μm ² , in the upper layer, the permeability of reservoir rocks is much lower and equal to 0.85 μm ² . Based on the obtained data, a horizontal wellbore (5 of Figs. 1, 2) of a branched horizontal well in the upper formation is carried out in the direction of increasing effective oil-saturated thicknesses southeast of the mouth of a branched horizontal well with a length of 200 m. Horizontal well (6 of Fig. 1, 2) a branched well in the lower reservoir is conducted in the direction of increasing effective oil-saturated thicknesses east of the mouth of a branched horizontal well with a length of 290 m

We drilled a branched horizontal production well (4 figures 1, 2), mastered and put into operation. Clay interlayers-lintels between reservoirs overlapped profile overlap (7 figure 1). Vertical wells were mastered for injection (8 and 9 of FIGS. 1, 2) in order to maintain reservoir pressure in the upper and lower reservoirs. Injection wells (8 and 9 of FIGS. 1, 2) are located from the horizontal trunks of a branched horizontal well at a distance of the design grid step, and the flow of injected fluid from the injection well (8 of FIGS. 1, 2) is directed perpendicular to the horizontal wellbore (6 of FIG. 1, 2) a branched production well in the lower reservoir. The flow of injected fluid from the injection well (9 of FIGS. 1, 2) is directed perpendicularly to the horizontal wellbore (5 of FIGS. 1, 2) of the branched production well in the upper formation. This contributes to a longer anhydrous period of the well. Oil was taken from a branched horizontal production well. They measured the flow rates of oil, water, reservoir pressure.

As a result of the operation of a branched producing horizontal well (4 Figs. 1, 2), the predicted oil production rate of a conventional horizontal well was exceeded, the operating life was increased, additional oil production was obtained due to the simultaneous operation of two layers by 75% and, accordingly, the economic effect was increased. The efficiency of operation of branched horizontal wells increases as a result of the use of fluid injection in injection wells.

For the proposed method, with the design lengths of the boreholes, confirmation of the predicted oil-saturated thicknesses and reservoir properties for a branched horizontal well, the total potential oil production rate was 10 tons / day. Compared with horizontal wells, the actual oil production rate increases by an average of 1.75 times.

The proposed method provides an increase in oil recovery, expansion of functionality and scope under various conditions for the development of deposits, the development of oil reserves in thin layered carbonate formations that coincide in plan, located in close proximity to the section from each other, separated by a clay layer. The proposed method eliminates the need for long-term preservation of oil deposits.

Claims (1)

A method of developing an oil deposit in layered carbonate reservoirs, including the placement, drilling of vertical injection and branched horizontal production wells with horizontal shafts, injection of displacement fluid through vertical injection wells and selection of products through a branched horizontal production well, characterized in that at least two thin carbonate reservoirs, coinciding in plan, located in close proximity to each other, separated by clay with interbedded bridges, specify the distribution of oil-saturated thickness of reservoir layers over the area of the reservoir, select areas with maximum permissible effective oil-saturated thickness of reservoir layers of at least two meters each, then drill a branched horizontal well to simultaneously develop two or more reservoir layers, place horizontal trunks in the most permeable intervals of the formations, and the trunks are carried out in the direction of increasing effective oil-saturated thicknesses, and the length of the trunks is they are inversely proportional to their permeability.

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