RU2754165C1 - Method for oil reservoir development by hydraulic fracturing - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to the oil industry and can be used in the development of oil deposits, the production facility of which is represented by at least two productive formations, coinciding in whole or in part in the structural plan, or is layered. The method includes drilling out a reservoir, the reservoir of which consists of at least two productive formations, which coincide completely or partially in the structural plan, or is layered, designing and carrying out hydraulic fracturing, putting wells into operation, selecting the production of formations by producing wells. According to the invention, a reservoir is selected in which the non-reservoir layers separating the productive strata are no more than 50 m thick, after drilling each well is perforated opposite one of the strata, worked out until the water cut of the production reaches at least 5%, then microbiological analysis of bacterial DNA is carried out in the produced fluid of each well, if the bacterial DNA set of one formation differs from another in neighboring wells by more than 5%, hydraulic fracturing of the formation is carried out in the wells in such a way as to create a bond between the layers.

EFFECT: provides an increase in the oil recovery factor of an oil reservoir.

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Description

The invention relates to the oil industry and can find application in the development of oil deposits, the production facility of which is represented by at least two productive formations, which coincide completely or partially in structural terms, or is layered.

There is a known method of developing an oil and gas reservoir using hydraulic fracturing by artificial in-circuit impact on the development object by pumping water, and / or gas, and / or another displacing agent through injection wells, withdrawing formation fluids through production wells and performing hydraulic fracturing. Hydraulic fracturing is carried out in a complex manner on the entire set of injection and production wells, the design and implementation of hydraulic fracturing is carried out on the basis of continuous information on the mechanical properties of the rock sections of injection and production wells, which is coordinated with geophysical studies, while the direction of hydraulic fracturing is set by selecting zenith and azimuthal angles of injection and production wells on the basis of excluding the heterogeneity of filtration flows, and the period of effective operation of hydraulic fractures is increased by injecting compositions of physicochemical substances into them that dissolve clay and other mineral substances that fill hydraulic fractures. Additionally, in complex reservoirs with a gas cap, the bottom and / or top of the hydraulic fracture is isolated from the bottom water and / or gas of the gas cap (RF patent No. 2135750, class Е21В43 / 20, Е21В43 / 26, publ. 27.08.1999).

The disadvantage of this method is the low sweep efficiency and oil recovery factor, because the hydrodynamic connections of formations and interlayers penetrated by wells are not taken into account if the reservoir is multilayer and / or layered.

The closest in technical essence to the proposed method is a method of developing an oil reservoir by hydraulic fracturing, including drilling the reservoir with vertical, directional and / or horizontal wells, the reservoir of which consists of at least two productive formations or is layered, the selection of reservoir products production wells, geochemical analysis of produced oil, design and implementation of hydraulic fracturing. The non-reservoir layers separating the productive strata are no more than two meters thick, after drilling the well, they are worked out for at least one year, during which, at intervals of at least once a month, geochemical analyzes of the produced oil of each well are carried out, based on the results of which stellar diagrams are built in the interval of nC8-nC20 chromatograms, in those wells where the area of one or several extremities of a star decreases in time or where the area of a star immediately differs by more than 10% from the average area of coinciding star diagrams when they are all superimposed on each other, they are designed and carried out in vertical and directional wells hydraulic fracturing, and in horizontal - multiple hydraulic fracturing, after which the wells are put into operation (RF patent No. 2548264, class Е21В43 / 26, publ. 20.04.2015 - prototype).

The disadvantage of this method is that in interlayers located close to each other, the separation of differences in chromatograms is difficult, because in its chemical composition, oil differs insignificantly, which leads to a decrease in the accuracy of the method and low values of the oil recovery factor.

The proposed invention solves the problem of increasing the oil recovery factor of an oil reservoir.

The problem is solved by the fact that in the method of developing an oil reservoir by hydraulic fracturing, including drilling out a reservoir, the reservoir of which consists of at least two productive formations that coincide completely or partially in the structural plan, or is layered, the design and implementation of hydraulic fracturing, well start-up to work, the selection of production from production wells, according to the invention, a deposit is selected in which the non-reservoir layers separating the productive layers are not more than 50 m thick, after drilling each well is perforated opposite one of the layers, worked out until the water cut of the product reaches at least 5%, then microbiological analysis of bacterial DNA in the produced fluid of each well is carried out, if the set of bacterial DNA of one layer differs from another in neighboring wells by more than 5%, hydraulic fracturing of the formation is carried out in the wells in such a way as to create a bond between the layers.

The essence of the invention

The oil recovery of an oil reservoir, the reservoir of which is represented by at least two productive formations that coincide in the structural plan, or is layered, is significantly influenced by the reservoir sweep efficiency. Wells, even when drilling with a dense mesh, do not penetrate all interlayers, lenses, etc. In addition, part of even exposed interlayers, due to the presence of heterogeneity in permeability, remain undeveloped during development. Thus, the more such layers or interlayers that are heterogeneous in thickness and / or area, will have a sufficiently permeable hydrodynamic connection with the wells, the higher the oil recovery will be. It is known that hydraulic fracturing (hydraulic fracturing) is used for this. However, the existing technical solutions do not fully allow to select candidate wells for hydraulic fracturing from the point of view of connecting “idle” formations or interlayers, which does not allow increasing reservoir coverage and oil recovery. The proposed invention solves the problem of increasing the oil recovery factor of an oil reservoir. The problem is solved as follows.

The method is implemented as follows.

An area of an oil reservoir, represented by a terrigenous or carbonate type of reservoir, is drilled with vertical, directional and / or horizontal wells. The productive reservoir of the reservoir consists of at least two oil-saturated reservoirs, which coincide completely or partially in the structural plan, or is layered. Productive formations are separated by a non-reservoir interlayer no more than 50 m thick. Research shows that when the non-reservoir interlayer is more than 50 m thick, the efficiency of hydraulic fracturing is significantly reduced.

After drilling the wells in each of them, a secondary opening is carried out opposite one of the layers and the wells are put into operation. The wells are operated until the water cut of each well reaches at least 5%. At lower water-cut values, it is quite difficult to collect the required set of bacterial DNA, since bacteria live (in the pore space) mainly at the interface between oil and water. Then, microbiological analysis of bacterial DNA is carried out in the produced fluid of each well. If the bacterial DNA set of one layer differs from another in adjacent wells by more than 5%, the wells are candidates for hydraulic fracturing. Studies show that the difference in bacterial DNA from one reservoir from another in adjacent wells by less than 5% is due to other reasons (such as analytical error, etc.) and is not related to the presence or absence of reservoir connectivity.

Thus, candidate wells are selected for hydraulic fracturing to involve idle reservoirs into development. Further, hydraulic fracturing of the formation is designed and carried out in vertical and directional wells, and in horizontal wells - multiple hydraulic fracturing of the formation in such a way as to create a connection between the layers. After hydraulic fracturing, the wells are washed and put into operation.

The development is carried out until the full economically viable development of the oil deposit.

The result of the introduction of this method is to increase the oil recovery factor of an oil reservoir.

An example of a specific implementation of the method.

An area of a massive oil reservoir, represented by a carbonate type of reservoir, in which two reservoirs are distinguished, partially coinciding in the structural plan and separated by a non-reservoir interlayer 50 m thick, is penetrated by five wells with a distance between wells of 300-400 m.Three wells are vertical, and two are horizontal ... The strata of the reservoir area are represented by a purely oil zone with a total thickness of 8-12 m. In this case, each of the strata, in turn, is layered and inhomogeneous both in thickness and in area.

The top of the upper reservoir lies at a depth of 910 m, the permeability of the reservoir is 10-30 mD, the average porosity is 12%, the initial reservoir pressure is 9 MPa, the viscosity of oil in reservoir conditions according to measurements is 24-46 mPa · s. The top of the lower productive formation lies at a depth of 970 m, the permeability of the formation is 0.1-2 mD, the average porosity is 10%, the initial formation pressure is 10 MPa, the viscosity of oil in formation conditions according to measurements is 15-22 mPa · s.

After drilling the wells in each of them, a secondary opening is carried out opposite one of the layers and the wells are put into operation. The wells are operated until the water cut of each well reaches at least 5%. Then microbiological analysis of bacterial DNA in the produced fluid of each well is carried out. If the bacterial DNA set of one layer differs from another in adjacent wells by more than 5%, in the wells in which such a difference was found, hydraulic fracturing is designed and carried out in such a way as to create a connection between the layers. Moreover, in vertical and directional wells, hydraulic fracturing of the formation is carried out, and in horizontal wells, multiple hydraulic fracturing of the formation.

After hydraulic fracturing, the wells are washed and put into operation.

The development is carried out until the full economically viable development of the oil deposit.

As a result of development, which was limited by water cut of production wells, up to 98% was produced from the reservoir 206.9 thousand tons. oil, the oil recovery factor (ORF) was 0.275 unit fraction. Other things being equal, the prototype produced 173.8 thousand tons. oil, oil recovery factor was 0.231 unit fraction. The increase in oil recovery factor according to the proposed method is 0.044 unit fractions.

The proposed method allows, due to the rational involvement of non-performing reservoirs in development, to increase the coverage of the reservoir by impact, to increase the production of oil reserves and, as a consequence, to increase the oil recovery factor of an oil reservoir.

Application of the proposed method will allow solving the problem of increasing the oil recovery factor of an oil reservoir.

Claims (1)

A method of developing an oil reservoir by hydraulic fracturing, including drilling out a reservoir, the reservoir of which consists of at least two productive reservoirs that coincide completely or partially in structural terms, or is layered, design and conduct hydraulic fracturing, start-up of wells, selection of reservoir products by production wells , characterized in that a reservoir is selected, in which the non-reservoir layers separating the productive strata are no more than 50 m thick, wells are drilled with a distance of 300-400 m between the boreholes, after drilling each well is perforated opposite one of the layers, worked out until the water cut does not reach at least 5%, then microbiological analysis of bacterial DNA in the produced fluid of each well is carried out, if the bacterial DNA set of one layer differs from another in neighboring wells by more than 5%, hydraulic fracturing of the formation is carried out in the wells in such a way as to create a bond between the layers ...