RU2319831C1 - Method for oil production from low-permeable reservoirs - Google Patents

Abstract

FIELD: oil production of viscous-oil reservoirs having low permeability.

SUBSTANCE: method involves drilling well to reservoir roof; providing well with casing pipe; lowering explosive charge in well; blasting explosive charge opposite to productive reservoir and creating caverns and fissures extending in radial direction from well. Explosive charges are lowered in wells of deposit development member wells drilled so that they are spaced a distance smaller than production reservoir depth between injection and producing wells. Caverns created in reservoir extend from wells in radial direction. Large explosive charge is additionally lowered in injection well for said explosive charge blasting opposite to productive reservoir to create pocket and fissure system, which connects injection and producing wells of the member. Member wells are brought into operation up to deposit resource depletion. Wells of adjacent members are operated in the same manner.

EFFECT: increased production intensity, extended reservoir coverage with treatment and improved oil extraction due to fissure system creation in productive reservoir zone between injection and producing wells.

1 ex, 1 dwg

Description

The invention relates to oil production mainly from reservoirs with viscous oil and low permeability.

A known method of oil production with hydraulic fracturing (F.S. Abdullin. Oil and gas production. M .: Nedra. 1983, p. 216-223), which includes injecting high-pressure fluid into the well and opening existing, and also the creation of new cracks in the reservoir.

The method allows for oil production with increased production productivity and injectivity of injection wells.

The disadvantage of this method is that when it is used, a reliable hydrodynamic connection between the injection and production wells is not provided, since when a fracture is formed, cracks form in any, including in the vertical direction.

There is also known a method of oil production with thermogasochemical effects on the reservoir (F.S. Abdullin. Oil and gas production. M .: Nedra. 1983, p.238-239), including the descent of powder charges into the well, the production of a "slow explosion" against the productive formation and the opening of existing and the creation of new cracks, along which intensively heated during combustion liquids and gaseous products of combustion deep into the formation.

The method allows for the production of oil containing paraffin and asphalt-resinous substances with increased productivity of the wells.

The disadvantage of this method is that when it is used, the radius of impact on the reservoir is negligible.

The closest in technical essence and the achieved result to the proposed method is a method of oil production with torpedoing of wells (F.S. Abdullin. Oil and gas production. M .: Nedra. 1983, p.234-235), including the descent into the drilled and cased to the top of the formation, the well of the explosive charge, its explosion against the productive formation and the creation in it of a cavity and cracks diverging radially from the well.

The known method allows to improve the flow of oil into the well and the injectivity of the reservoir injected agent.

The disadvantage of this method is that when oil is extracted from low-permeability reservoirs, especially saturated with highly viscous oil, the reservoir coverage and oil recovery from it remain low, since it does not have a sufficiently developed network of cracks for filtering between injection and production wells and a premature breakthrough into producing wells of the injected working agent along the most permeable cracks, while a significant part of the oil remains in the pore space and small cracks.

The technical problem to which the claimed invention is directed is to intensify production, increase the coverage of the formation by exposure and extract oil from it by creating a network of fractures in the producing formation between injection and producing wells.

The stated technical problem is solved by the described method of oil production from low-permeability reservoirs, which includes launching an explosive charge into a well drilled and cased to the top of the formation, blasting it against the reservoir and creating cavities and cracks diverging radially from the well, while the explosive charges are lowered into wells of an element of the field development system drilled at a distance between the injection and production wells of the element less than the depth of the productive field they explode them against the reservoir and create cavities and diverging cracks radially from the wells, inject a larger charge into the injection well, explode them against the reservoir and create a boiler and a network of cracks in it that connect the injection with the producing wells of the element, and operate wells of an element before the development of reserves in it, wells of neighboring elements are operated in a similar way.

The studies showed that the descent into the wells of an element of the field development system, drilled at a distance between the injection and producing wells of the element less than the depth of the reservoir, explosive charges, their explosion against the reservoir and the creation of cavities in it and diverging cracks radially from the wells , an additional descent into the injection well of a larger charge, its explosion against the reservoir and the creation in it of a boiler and a network of cracks connecting the injection to the producing and wells of an element, conducting exploitation of wells of an element before running out of reserves in it, exploiting wells of neighboring elements in a similar way allows you to:

- firstly, to create a network of fractures in the productive formation in the horizontal direction between the injection and producing wells of the element due to the smaller distance between them than between the formation and the surface of the earth;

- secondly, to increase the injectivity of the well by increasing its diameter in the interval of the reservoir;

- thirdly, to increase the coverage of the formation by exposure and extraction of oil from it by connecting a network of fractures, previously accumulated oil accumulations in the reservoir and reducing the likelihood of premature (dagger) displacement of the displacing agent into production wells.

The set of distinctive features of the proposed method for oil production from low-permeability reservoirs allows to increase the injectivity of the injection well, create a network of fractures in the horizontal direction connecting the injection well with the producers, increase the coverage of the formation by exposure and oil recovery, and intensify the production.

From the patent and scientific literature we do not know the claimed combination of distinctive features. Therefore, the claimed method meets the criteria of the invention "inventive step".

The drawing shows a diagram of an implementation of the proposed method.

The method is carried out in the following sequence (combined with an example of a specific implementation).

In the drilled and cased to the top of the formation injection 1 and four production wells 2, for example, an element of a five-point field development system, drilled with a distance between the injection 1 and production wells 2 less than the depth of the reservoir, the explosive charges are lowered to the open face against the reservoir . With a reservoir depth of 100 m, which corresponds to the depth of bitumen oil in Tatarstan, we take the distance between injection 1 and production wells 2 in the element, for example, equal to 50 m. Deflated charges explode. At the same time, caverns 3 are created that increase the diameters of wells 1 and 2 in the interval of the reservoir, and cracks diverging from wells 1 and 2 in the radial direction, which leads to an improvement in the conditions of oil inflow into production wells 2.

A larger explosive charge is released into injection well 1. The value of the charge is determined empirically or by calculation, taking into account the properties of rocks and explosives, the distance between injection and producing wells, etc. The cavern formed as a result of the first explosion in the injection well 1 makes it possible to place a larger explosive charge in it. Placed in the cavity of the injection well 1, a larger explosive charge is blown up against the reservoir. In this case, in the open bottom of injection well 1, a boiler 4 is created in the reservoir, increasing the size of the cavity in it, as well as a network of cracks horizontally directed in the reservoir, between injection 1 and production wells 2. The direction of the cracks during the explosion is determined mainly by the smallest distance from the explosion to voids in the rock, which in this case are the caverns 3 of the producing wells 2.

The wells of the five-point development system element are operated by pumping 1 working agent into injection well 1, which can be used as water, gas, steam, etc. depending on the properties of the formation and its saturating fluids and the selection of products from production wells 2. The injection well 1 is operated at increased injectivity by increasing the area of filtration of the working agent from the well into the formation through the walls of the created boiler 4 and reducing hydraulic resistance in the bottomhole zone. The working agent, entering the reservoir, moves through the pore space, existing and newly created cracks in the direction of the producing wells of 2 elements, displacing the oil contained in the pores and cracks of the reservoir. At the same time, conditions are improved and it becomes possible to extract oil from small cracks and pores through created larger and permeable cracks, as well as from previously closed volumes through their connection with the created network of cracks. It should be noted that isolated cracks and pores containing oil are more often found in hard carbonate rocks, therefore, the effectiveness of the proposed method in such deposits is higher. In addition, the network of fractures created in the reservoir stimulates the process of extracting oil from it. The wells are operated up to the development of oil reserves in it.

Wells of neighboring elements of the development system are exploited in a similar manner until the development of oil reserves throughout the field.

According to the proposed method, the descent of explosive charges into the wells of an element of the field development system, drilled at a distance between the injection and producing wells of the element less than the depth of the reservoir, blasting them against the reservoir and creating caverns and cracks diverging radially from the wells, additionally into the injection well of a larger charge, blasting it against the reservoir and creating a boiler and a network of cracks in it that connects the injection to production wells ment holding member well operation to generate stocks therein, operation of adjacent wells likewise provides an increase injectivity and productivity of production wells, extracting oil from previously isolated volume, increasing sweep exposure and extracting oil therefrom, intensification process operation.

Thus, the application of the proposed method of oil production from low-permeability reservoirs allows to intensify the process of field development and increase the oil extraction coefficient from it due to the creation of a network of fractures between the injection and production wells.

Claims (1)

A method of extracting oil from low-permeability reservoirs, including launching an explosive charge into a well drilled and cased to the top of the formation, blasting it against the reservoir and creating cavities and cracks diverging radially from the well, characterized in that the charges of the explosive are lowered into the system element wells field development, drilled at a distance between the injection and producing wells of the element less than the depth of the reservoir, explode them against the reservoir and they create cavities in it and cracks diverging radially from the wells, a larger charge is additionally lowered into the injection well, blast it against the reservoir and create a boiler and a network of cracks in it that connect the injection with the producing wells of the element, exploit the wells of the element until reserves are developed in it , wells of neighboring elements operate in a similar manner.