RU2153064C1 - Oil-pool development method - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: in the course of development of oil pool with cavernous fractured reservoir, vertical and of horizontal wells are led. Oil is taken away from producing wells and working agent is injected through injection wells. When developing oil pool with cavernous fractured reservoir with horizontal cavernosity, horizontal well in productive bed is led below or above horizontal cavernosity. From of horizontal hole, perforation of bed, its hydraulic fracturing, or drilling of vertical holes to horizontal cavernosity zone are performed. EFFECT: increased oil recovery. 3 ex

Description

 The invention relates to the oil industry and may find application in the development of an oil reservoir with a fractured-pore reservoir.

 A known method for the development of oil deposits, including the injection of a working agent through injection wells and the selection of oil through production wells [1].

 The known method does not allow to achieve high oil recovery in the development of oil deposits.

 Closest to the invention, the technical essence is a method of developing a heterogeneous multilayer oil reservoir, including drilling vertical and horizontal or inclined wellbores, setting the density of perforation in undeveloped formations according to reservoir properties of the formations, pumping a working agent through injection wells and taking oil through production wells [2 ].

 The known method does not allow to achieve high oil recovery in the development of oil deposits with a fractured-pore reservoir.

 The proposed invention solves the problem of increasing oil recovery deposits.

 The problem is solved in that in the method of developing an oil reservoir, including vertical and horizontal wells, oil selection through production wells and pumping a working agent through injection wells, according to the invention, a horizontal well in the reservoir is held below or above the horizontal fracture zone from the horizontal well perform perforation, hydraulic fracturing or drilling of vertical shafts to the horizontal fracture zone.

The essential features of the invention are:
1. Posting of vertical and horizontal wells;
2. injection of a working agent through injection wells;
3. selection of oil through production wells,
4. the installation of a horizontal well in the reservoir below or above the horizontal fracture zone,
5. the implementation of a horizontal well perforation, hydraulic fracturing or drilling vertical shafts to the horizontal fracture zone.

 Signs 1 to 3 are common with the prototype, signs 4, 5 are essential distinguishing features of the invention.

SUMMARY OF THE INVENTION
One of the main reasons for the low flow rates and the final hydrocarbon recovery rate when developing deposits with directional and horizontal wells is the closure of cracks in the bottomhole zone and, accordingly, the decrease in well productivity from a potential one.

 The proposed method solves the problem of increasing oil recovery by eliminating the closure of horizontal cracks. The problem is solved by the following set of operations.

 When developing an oil field, vertical and horizontal wells are posted, oil is taken through production wells and the working agent is injected through injection wells. A horizontal well in the reservoir is held below or above the horizontal fracture zone. From a horizontal wellbore, perforation, hydraulic fracturing or drilling of vertical wellbores to the horizontal fracture zone are performed.

 The study of the effect of well orientation on the productivity of a fractured-pore reservoir with horizontal fracturing showed that in vertical wells the influence of stresses on changes in hydraulic conductivity and productivity is weak, and in horizontal wells it is very strong. Laboratory studies and the study of changes in rock permeability when modeling the stress state in the bottom-hole zone of a horizontal well showed that the vertical stress component from the action of rock pressure reduces the permeability of horizontal cracks in the bottom-hole zone of a horizontal well to below 0.05 of the potential. When the directional and horizontal wells are located directly in the horizontal fracture zone, the fractures close in this zone due to the manifestation of the vertical component of the stress from the action of rock pressure, a decrease in permeability and a decrease in well flow rates. When the directional and horizontal wells are located above or below the horizontal fracture zone, there is no closure of the cracks from the action of rock pressure, the permeability and flow rate of the wells are preserved.

 In the proposed method, it is proposed to conduct a horizontal well in the reservoir below or above the horizontal fracture zone, and to perforate, hydraulic fracture or drill vertical wells to the horizontal fracture zone from the horizontal wellbore. At the same time, the achievement of the horizontal fracture zone is carried out as in vertical wells, i.e., practically without reducing the permeability of the formation.

Case Studies
Example 1. An oil deposit of the Chegodaevskoye field is developed with the following characteristics: average porosity - 11.9%, average permeability - 0.0001 μm ² , permeability in the horizontal fracture zone - 15 μm ² , oil saturation - 61.1%, absolute mark of water-oil contact - 870 m, average oil-saturated thickness - 12 m, initial reservoir pressure - 11 MPa, reservoir temperature - 25 ^o C, reservoir oil parameters: density - 1.05 kg / m ³ , viscosity - 400 MPa • s, saturation pressure - 1 , 8 MPa, gas content - 15.2 m ³ / t, sulfur content - 3.64%.

 Wells are placed in the deposits and products are selected through production wells and the working agent is injected through injection wells. Formation water is used as a working agent.

The core determines the location and thickness of the horizontal fracture zone in the reservoir. The thickness of the horizontal fracture zone is 2.5 m, and the distance from the top of the formation to the center of the horizontal fracture zone is 6 m. The horizontal well of the producing well is carried out along the productive formation above the horizontal fracture zone in the range of 0.5 to 1 m. The horizontal well is made in length 100 m. The horizontal trunk is perforated in the direction of the horizontal fracture zone by deep-penetrating sandblasting perforation to reach the horizontal fracture zone. As a result, the fluid flow rate of the well was 80 m ³ / day. When posting a horizontal well in the horizontal fracture zone, the flow rate of the well in the liquid was 2 m ³ / day.

 Example 2. Perform as example 1. In a horizontal wellbore, hydraulic fracturing is performed until the fracture reaches the fracture zone of horizontal fracture.

 Example 3. Perform as example 1. In a horizontal well, vertical shafts are drilled to the horizontal fracture zone.

 The application of the proposed method will increase oil recovery deposits.

Sources of information taken into account when preparing the application:
1. M.A. Zhdanov. Oilfield geology and oil and gas reserves calculation. M .: Nedra, 1986, p. 95.

 2. RF patent N 2097536, cl. E 21 B 43/20, published. 1997 - a prototype.

Claims (1)

 A method of developing oil deposits, including vertical and horizontal wells, oil selection through production wells and pumping a working agent through injection wells, characterized in that when developing an oil reservoir with a fractured-pore reservoir with horizontal fracture, a horizontal well in the reservoir is lower or higher zones of horizontal fracturing, perforation, hydraulic fracturing or drilling of vertical trunks to the horizontal zone are performed from a horizontal wellbore hydrochloric fracture.