RU2494237C1 - Development method of oil deposit by water-flooding - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: at development of an oil deposit by means of thermal water-flooding, inter-well pumping of formation water is performed from a below-lying formation to an above-lying productive formation and extraction of formation product is performed through production wells from productive formation. At inter-well pumping, water is extracted from the formation with temperature exceeding the productive formation temperature not less than by 20°C and with mineralisation of formation water, which is higher than mineralisation of water in productive formation not less than by 56 g/l; inter-well pumping is started at oil development stage, when formation pressure is decreased, and development is performed in formation pressure rise mode. Injection is performed in a cyclic mode.

EFFECT: increasing oil recovery of the deposit in fractured-porous manifolds owing to providing the possibility of increasing formation pressure as quickly as possible.

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Description

The invention relates to the oil industry and may find application in the development of oil deposits by thermal flooding.

A known method of cross-fluid pumping, which is carried out when watering the produced oil above the limit of profitability of its production - when the water cut of the produced oil is about 98.0-99.9%. As production wells, former production wells are used. The formation water is taken from the irrigated reservoir, the injection of produced water through injection wells is carried out into the reservoir with undeveloped oil reserves. The selection of oil from the reservoir is through a water well. In a water well, oil and water are separated. Water is withdrawn from the tubing string and is pumped through the flow and water lines into injection wells. Oil is accumulated in the annulus of the well. After filling the annulus of the well with oil, the well is stopped, the fluid is circulated in the well, the oil is forced out of the annulus into the pipeline with a reverse water flow and the well is put into operation. The time of filling the annulus of the well with oil is determined by the analytical expression (RF Patent No. 2290500, publ. 12/27/2006).

Closest to the proposed invention in technical essence is a method of developing a multilayer oil field, which involves placing wells in a dedicated area of reservoir development according to an approved project using a cluster method, determining reservoir reservoir properties in a section, cyclic injection of produced water through injection wells and selecting oil through production wells. In this case, first injection wells are drilled with a deepening of the bottom under the lower production facility until the aquifers are opened. Then drill production wells. Moreover, if the hypsometric marks of the productive formations are below the oil-water contact or the lithological substitution zones for the non-reservoir are opened, the deepening of the bottom of the well continues also until the opening of the mentioned aquifers. After completion of drilling a section within the bush, taking into account the obtained maximum possible geological information, the wells are grouped into a single development system with respect to the bottom, and waterflooding of the reservoirs through injection wells is carried out by downhole or interwell pumping of water from the said aquifers or saline drinking water from the upper horizons located on the territory of the developed section (RF Patent No. 2158821, publ. 10.11.2000 - prototype).

A disadvantage of the known methods is the low oil recovery of the reservoir with limited possibilities of restoring a continuously falling reservoir pressure. All attempts to restore reservoir pressure are associated with high costs and time.

This task is especially relevant for fractured-pore reservoirs.

The proposed invention solves the problem of increasing reservoir pressure in the shortest possible time.

The problem is solved in that in the method of developing an oil reservoir by thermal water flooding, including cross-well pumping of produced water from an underlying formation into an overlying producing formation and selecting reservoir products through production wells from a producing formation, according to the invention, water is taken from the formation with a higher temperature for inter-well pumping reservoir not less than 20 ° C and with mineralization of reservoir water greater mineralization of water in the reservoir not less than 56 g / l hydrochloric begin pumping at the stage of development of the deposit, when the reservoir pressure is reduced, and development are in the mode of a gradual increase in reservoir pressure. It is possible to carry out water injection during interwell pumping in a cyclic mode.

SUMMARY OF THE INVENTION

Today, the problem of extracting oil from fractured-pore reservoirs is becoming more and more urgent, since their share in the total balance of residual reserves is quickly calculated. One of the most difficult issues in this case is the use of water flooding. In these conditions, despite a number of measures, such as: commissioning additional wells for injection, acid treatments, the pressure of the reservoir continues to decrease in the Tournaisian deposits, and therefore the decrease in oil recovery of the reservoir. The increase in reservoir pressure in the Tournaisian deposits, represented by strata with hard-to-recover reserves, is based on artificial flooding of reservoirs. Fresh and waste water is used as a working agent for injection wells. Despite the annual increase in the volume of injected water, a drop in reservoir pressure is observed. The effectiveness of existing waterflooding methods remains relatively low. To increase the efficiency of water flooding in conditions of complex reservoirs, the need has arisen for the search for non-standard solutions providing higher oil recovery from this type of reservoirs. As such a solution, a "thermal injection" is proposed, based on thermal exposure, and characterized by high oil displacement.

The problem of increasing the reservoir pressure was solved by using highly mineralized water of the lower horizon with the salinity of the reservoir water, the greater salinity of the water in the reservoir by at least 56 g / l.

In the section of the well there are quite a lot of aquifers containing water with different salinity. The authors tested water from different horizons as a working agent, but only the described water made it possible to increase the reservoir pressure almost instantly. This result does not fit into a strictly justified development theory, according to which the injection of a working agent of any mineralization increases the reservoir pressure and oil recovery of the reservoir. The development theory is described as a general case, but was not suitable for fractured-pore reservoirs.

So the injection of wastewater with a salinity close to that of formation water did not lead to an increase in reservoir pressure during the year. Carrying out water injection of the proposed mineralization in the same area allowed increasing the reservoir pressure after 30 days. Moreover, this result was extremely unexpected - not obvious.

Thus, according to the method, during cross-hole pumping, water is taken from the formation with a temperature greater than the temperature of the producing formation by at least 20 ° C and mineralization of formation water with a greater mineralization of water in the producing formation by not less than 56 g / l, cross-hole pumping begin at the stage of development of the reservoir, when the reservoir pressure is lowered, and the development is conducted in the mode of increasing reservoir pressure. It is possible to carry out water injection during interwell pumping in a cyclic mode.

When the Devonian water is injected into the Tournaisian beds, the thermal effect is manifested, due to which the oil viscosity decreases, the oil is uniformly displaced without premature breakthrough of the injected water, which ultimately leads to an increase in oil recovery. It should be noted that due to the work carried out to introduce inter-well pumping, the duration of the effect in wells increased, where there were works to increase oil recovery. Water injection was carried out cyclically - 15/15 days (15 days in operation / 15 days in idle time). This created the conditions for the capillary penetration of water into blocks and the displacement of oil into the system of cracks.

Concrete example

A site is being developed that is remote from the main development facilities for the injection of highly mineralized Devonian water. The temperature of the Devonian water in this area is more than 40 ° C, and the temperature of the deposits is 22-23 degrees. The site has the following characteristics: depths 1230 m, reservoir pressure 9.0 MPa, reservoir temperature 22-23 ° C, porosity 9-13%, permeability 10-20 mD, oil saturation 75%, thickness of the reservoir 22, oil viscosity 33.5 MPa · s, oil density 0.902 g / cm ³ , mineralization of produced water 1.165 g / l. The site is developed by 4 producing wells and one injection well. The deposit was introduced into development in 1996. From 1996 to 2005, development was carried out without maintaining reservoir pressure. The oil deposit is confined to the limestones of the Tournaisian stage. Apparently, there is no connection between the reservoir and the marginal aquifer. This is evidenced by a decrease in reservoir pressure on the deposits. By the time the injection was organized in the area, the pressure had decreased from 9.8 to 8.6 MPa.

Below on the Pasha deposits at depths of the order of 1800-1900 m there is an aquifer with a water temperature of 43-44 ° C and a salinity of 1.182-1.187 g / l.

A water well, drilled on the Pashi deposits of the Devonian, is selected, perforated in the interval of the aquifer. The electric centrifugal pump ЭЦН60 / 1750 m is lowered to a depth of 1513 meters and, through a closed system, the produced highly mineralized heated Devonian water is sent to injection wells.

During the operation of the wells, geophysical studies are regularly carried out along the annulus to determine the hydrodynamic parameters. According to their results, it was found that the temperature of the formation does not decrease.

As a result of the work, it was possible to stabilize and even increase reservoir pressure from 8.6 to 9.0 MPa. The balance of fluid selection and injection from the beginning of development is 43%. The average fluid flow rate of one well increased from 4.5 to 12.5 m ³ / day, oil flow rate from 3.8 to 9.6 t / day, i.e. more than 2.5 times. Water cut increased slightly (from 11 to 23%). In total, from the beginning of the organization of inter-well pumping in the area, 26,004 tons of oil were additionally produced.

When Devonian water is pumped into the Tournaisian strata, it is uniformly displaced without premature breakthrough of the injected water, the negative effect of reservoir cooling that occurs when cold water is injected, as well as clogging of the bottomhole formation zone, which ultimately leads to increased oil recovery.

The economic effect is calculated by additional production, in a short time, obtained as a result of the organization of thermal flooding. Thus, the net profit for the first year of application of the method is 4.2 million rubles.

The application of the proposed method will improve oil recovery deposits due to the possibility of increasing reservoir pressure in a short time.

Claims (2)

1. A method of developing an oil reservoir by thermal water flooding, including cross-well pumping of produced water from an underlying formation into an overlying reservoir and taking production through production wells from a reservoir, characterized in that water is taken from the reservoir with a temperature higher than the temperature of the reservoir during inter-well pumping less than 20 ° C and with mineralization of produced water greater mineralization of water in the reservoir by at least 56 g / l, cross-hole pumping begins tadii develop deposits when the reservoir pressure is lowered, and development are in the mode of increasing the reservoir pressure. 2. The method according to claim 1, characterized in that during the cross-hole pumping, water is pumped into injection wells in a cyclic mode.