RU2478164C1 - Development method of oil deposit located above gas deposit and separated from it with non-permeable interlayer - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: according to the proposed method, oil deposit located above gas deposit and separated from it with a non-permeable interlayer is developed. Drilling of vertical and horizontal production and injection wells in oil deposit, pumping of working fluid to injection wells and extraction of products from production wells is performed. According to the invention, an additional horizontal well is drilled with passage of its horizontal shaft in a non-permeable interlayer between oil and gas deposits. Hydraulic fracturing is performed in horizontal part of the well shaft at the interval of non-permeable section with formation of hydraulic fracturing cracks connecting oil and gas deposits to each other. During development of oil deposit, when gas penetrates into shafts of production wells, periodic pumping of viscous liquid is performed to the additional horizontal well till the gas flow to shafts of those production wells is stopped.

EFFECT: improving effectiveness of the method owing to using gas of gas deposit as working fluid.

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Description

The invention relates to the oil industry and, in particular, to methods for developing an oil deposit using gas.

A known method of developing an oil deposit (patent RU No. 2391495, IPC 8 E21B 43/20, published in Bulletin No. 16 of 06/10/2010), including ejecting gas with water and injecting in a cyclic mode to increase oil recovery in the oil reservoir along the column elevator pipes of the water-gas mixture formed by mixing gas with water, supplied under pressure to a mixing device, which is used as a liquid-gas dispersant installed at the mouth of the injection well, while gas is taken into the liquid-gas dispersant under pressure, taking either from gas wells or from the gas interval opened by the same injection well, isolated from the injection interval and communicated through the annular cavity through the column of elevator pipes and shut-off and control devices with a liquid-gas dispersant, and the gas-water mixture is periodically alternated in each a cycle with the injection of either only gas, or with the sequential injection of water and gas or gas and water, maintaining the pressure at the bottom of the injection well in the injection interval, subject to hold:

Pg <Pc <Pv,

where Pc is the bottomhole pressure during the injection of a water-gas mixture into the formation;

Rg and Pb are bottomhole pressures, respectively, when only gas or only water is injected, and the values of Pg, Pc and Pb in each cycle vary from specified minimum to specified maximum values, while during periods of simultaneous supply of water and gas to the liquid-gas dispersant the water flow rate is kept constant, and the gas flow rate is varied within predetermined limits, or the gas flow rate is maintained constant, and the water flow rate is varied within the predetermined limits.

The disadvantages of this method are:

- firstly, the complexity of the implementation, since it is necessary to take gas at the wellhead from the gas interval of the same well, to prepare a gas-gas mixture at the mouth of the injection well using a liquid-gas dispersant, while the gas sampling interval must be isolated (packer) in the injection well and injecting a packer water-gas mixture;

- secondly, constant monitoring is required during the injection of the water-gas mixture into the injection well, since during the periods of simultaneous supply of water and gas to the liquid-gas disperser, the water flow rate is kept constant, and the gas flow rate is changed within the set limits, or the gas flow rate is kept constant, and the water flow rate is changed within specified limits;

- thirdly, the wells are made vertical, therefore, its application does not provide the maximum coverage factor for the area of the oil reservoir.

A known method for the development of oil fields with a gas cap (options) (patent RU No. 2312983, IPC 8 E21B 43/24, publ. In bull. No. 35 from 12/20/2007).

According to the first option: A method of developing oil fields with a gas cap involves drilling a reservoir with injection and production wells and injecting hot agent into the oil-gas contact area and the oil rim area through the injection wells, and hot water is injected with a low coefficient of sandiness and large formation fragmentation with a temperature above the initial reservoir temperature and below its boiling point with pressure at the mouth of the injection well, the well is used horizontal ones are used, in which the upper parts open the gas cap, and the lower parts open all oil-saturated interlayers, placing injection wells above the producers in the presence of an impermeable bridge between the gas cap and the oil rim, and in the absence of the specified bridge - between the producers.

According to the second option: A method for developing oil fields with a gas cap involves drilling a reservoir by injection and producing wells and pumping a working gas — a water-gas mixture of HCV into the gas-oil contact area, and with a high coefficient of sandiness and low formation stratification, the HCV is injected with a temperature above the initial reservoir temperature and below the boiling point at a pressure at the mouth of the injection well, HCV is used, obtained by dispersing hot water with gas to form of fine-graded HCV with a density lower than the density of oil under formation conditions, horizontal wells are used, in which the upper parts open the gas cap, and the lower parts open all oil-saturated interlayers, placing injection wells above the production ones in the presence of an impermeable bridge between the gas cap and the oil rim, and in the absence of the specified jumper - between extractive.

The disadvantages of this method are:

firstly, high costs for implementing the method, due to the fact that several horizontal wells are drilled, which open both a gas deposit (gas cap) and an oil deposit (oil-saturated interlayers), which requires significant material and financial costs;

secondly, high energy costs for the preparation of a working agent injected into injection wells, which uses hot water or a water-gas mixture (HCV), obtained by dispersing hot water with gas at the wellhead until a finely dispersed HCV is formed with a density lower than the density of oil in the reservoir conditions, as well as the need to attract additional equipment: boilers, dispersants;

thirdly, the low efficiency of the method in the presence of an impermeable bridge between the oil and gas deposits, horizontal injection wells are located above the production wells, water flooding is accelerated and reservoir pressure is reduced in the oil reservoir, in addition, pumping a working agent in the form of HCV causes rapid oil flooding deposits;

fourthly, constant monitoring is required during the injection of the water-gas mixture into the horizontal injection wells, since the HCV is pumped at a temperature above the initial reservoir temperature and below the boiling point at a pressure at the mouth of the injection well.

An object of the invention is to reduce financial and material costs by eliminating the drilling of several horizontal wells by performing hydraulic fracturing from one additionally drilled horizontal well, as well as reducing energy consumption and eliminating the use of additional equipment to prepare the working agent through the use of gas located in a gas reservoir as a working agent, as well as without constant monitoring at the mouth of the temperature of the working agent, for pumped into the reservoir.

The problem is solved by the method of developing an oil deposit located above the gas deposit and separated from it by an impermeable layer, including drilling vertical and horizontal production and injection wells in an oil deposit, pumping a working agent into injection wells and selecting products from production wells.

What is new is that an additional horizontal well is drilled with its horizontal wellbore passing in an impermeable layer between oil and gas deposits, hydraulic fracturing is performed in the horizontal part of the wellbore in the interval of an impenetrable section with the formation of hydraulic fractures connecting oil and gas deposits between themselves, during development when a gas breakthrough into the shafts of production wells, the oil deposits periodically inject viscous fluid into an additional horizontal well until gas deposition into the trunks of these production wells.

The figure shows the proposed method for the development of oil deposits located above the gas reservoir and separated from it by an impermeable layer.

The method of developing an oil deposit 1 located above the gas reservoir 2 and separated from it by an impermeable layer 3 includes drilling vertical and horizontal production wells, as well as vertical and horizontal injection wells in the oil reservoir 1.

For example, vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells and vertical 6; 6 '; ... 6 ⁿ and horizontal 7 injection wells in oil reservoir 1.

Produce the injection of a working agent, for example, wastewater in vertical 6; 6 '; ... 6 ⁿ and horizontal 7 injection wells, and the selection of products is carried out from vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells.

As the development of oil reserves from the oil reservoir 1, it is depleted, the reservoir pressure decreases in it - R _PL , and the subsequent development of this oil reservoir 1 becomes economically inefficient.

In order to extract residual oil reserves from oil reservoir 1, an additional horizontal well 8 is drilled with its horizontal bore in an impenetrable interlayer 3 between the oil deposits 1 and gas 2.

Then produce hydraulic fracturing in an additional horizontal well 8 with the formation of cracks 9; 9'; ... 9 ⁿ . Hydraulic fracturing can be carried out by any known method, for example, described in the patents: “Method of hydraulic fracturing in a well” (patent RU No. 2358100, IPC 8 E21B 43/26, published in bulletin No. 16 of 06/10/2009); "Method of hydraulic fracturing" (RF patent No. 2122633, IPC 8 E21B 43/27, publ. 1998).

As the working agent, the gas contained in the gas reservoir 2, which due to cracks 9; 9'; ... 9 ⁿ formed during the hydraulic fracturing process, and the additional horizontal wellbore 8 comes from the gas reservoir 3 through an impermeable layer 3 into the oil reservoir 1, and the mouth of the additional horizontal well 8 is sealed.

Gas falling into the bottom of oil reservoir 1 dissolves in oil, which leads to a decrease in oil viscosity and an increase in reservoir pressure ( _Ppl ) in oil reservoir 1, which, in turn, leads to an increase in the displacement coefficient, therefore, oil from reservoir rocks located at the bottom of the oil reservoir 1 rises and is forced out through the rocks and through the intervals of perforation, the oil enters the vertical trunks 4; four'; ... 4 ⁿ and 5 horizontal production wells, from where pumps are selected to the surface. In addition, gas has high washing abilities, and oil dissolved in gas also migrates through poorly permeable rocks, since gas, dissolving in oil, increases its volume and reduces density, viscosity and surface tension.

As oil reserves are developed from oil reservoir 1, voids form in the pore spaces of reservoir rocks (due to oil being displaced from them), therefore gas breakthroughs into vertical trunks 4; four'; ... 4 ⁿ and horizontal 5 production wells.

Breakthroughs of gas in the vertical trunks 4; four'; ... 4 ⁿ and 5 horizontal production wells occur along the most permeable interbeds after liquid (oil and water) is displaced from them. To identify them, they monitor the magnitude of the gas factor and the chemical composition of the gas in the selected oil from the vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells.

For this, periodic sampling by any known method, for example, using in-depth samplers from vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells, determine the gas factor, analyze the chemical composition of gas in oil, and if a gas breakthrough is detected in vertical 4; four'; ... 4 ⁿ and horizontal 5 producing wells or into one of them, for example, into a vertical producing well 4, inject a viscous liquid, for example waste water or oil, into an additional horizontal well 8, while taking oil from vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells continue.

Viscous fluid is pumped from the mouth into an additional horizontal well 8, for example, through a tubing string (not shown) that can be lowered into an additional horizontal well 8 in advance.

The injection of viscous fluid continues until it fills the entire volume of the empty first reservoir space in the oil reservoir 1 through which gas has broken into the barrel of the vertical production well 4. A viscous fluid fills the reservoir pore space in the oil reservoir 1, which makes it difficult to filter gas in vertical production wellbore 4.

In the process of pumping a viscous fluid into an additional horizontal well 8, oil samples are taken from this vertical producing well 4 and the gas factor value is determined, as well as the chemical composition of the gas in the oil and when the gas factor is reduced to the initial value (in the initial period of oil reservoir development 1) and the absence of free gas in the oil, the injection of viscous fluid into an additional horizontal well is stopped. Subsequently, periodically, for example, once every 30 days, samples are taken from vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells and determine the value of the gas factor, and also analyze the chemical composition of gas in oil, and if a gas breakthrough is detected in vertical 4; four'; ... 4 ⁿ and horizontal 5 production wells the above process with the injection of viscous fluid into an additional injection well is repeated.

The advantage of a viscous liquid is that it has viscous characteristics close to that produced from oil reservoir 1 of oil, therefore this allows you to replace the oil released from the pores of the reservoir of oil reservoir 1 due to washing it out with gas from the gas reservoir 3 of viscous fluid, pumped into an additional injection well 8 from the wellhead, which prevents the flow of free gas from the gas reservoir into the vertical shafts 4; four'; ... 4 ⁿ and horizontal 5 production wells.

The proposed method allows to reduce financial and material costs by eliminating the drilling of several horizontal wells by performing hydraulic fracturing from one additionally drilled horizontal well, and also reduces energy costs and eliminates the use of additional equipment for the preparation of HCV through the use of gas located in gas reservoir as a displacing agent, which allows to increase reservoir pressure in the oil reservoir by bypassing gas sn from the gas reservoir into the oil reservoir to the bottom of the producing wells through cracks in the reservoirs formed as a result of hydraulic fracturing and the barrel of an additional horizontal well, and monitoring the development of the oil reservoir is carried out by periodically sampling the produced products and preventing free gas from entering the wells of the producing wells .

Claims (1)

A method for developing an oil deposit located above a gas deposit and separated from it by an impermeable layer, comprising drilling vertical and horizontal production and injection wells in an oil reservoir, pumping a working agent into injection wells and selecting products from production wells, characterized in that they drill an additional horizontal well with the passage of its horizontal wellbore in an impenetrable layer between oil and gas deposits, hydraulic fracturing is performed in the horizontal part of the wellbore in the interval opaque area to form a hydraulic fracture connecting oil and gas deposits to each other in the development of oil deposits during the breakthrough gas into the trunks of producing wells produce periodic injection of viscous fluid into an additional horizontal well until the termination of gas to the trunks of the production wells.

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