EA005023B1 - Method foe recovering residual nonrecoverable from depleted oil formations - Google Patents

Abstract

A method for recovering residual nonrecoverable oil comprising dissolving oil in gaseous fluid media and by transferring compressed gas from lower gas-bearing beds to upper depleted oil-bearing stratums and subsequent recovery oil/gas mixture, characterized in that gas from lower highly-pressurized beds overflows through existing wells to the oil-bearing stratum by punching in it a production string of an injection well, an oil-gas condensate pool is formed and accumulated and afterwards recovered in the operational mode.

Description

Technical field

The invention relates to the production of liquid or gaseous fluids from boreholes, and more specifically, to methods for producing non-recoverable oil reserves from depleted oil reservoirs by creating secondary pressure and gasification.

State of the art

A known method of oil production based on the well-known thermodynamic process of reverse evaporation of free oil in a compressed gas medium (3ax S. L. "Increasing the oil recovery of a partially depleted reservoir by injecting high pressure gases into it" Izv. AN USSR, No. 9, 1955). The essence of this method is that a hydrocarbon gas is injected into a partially depleted oil-bearing formation under high pressure, which, propagating through the formation, dissolves the residual oil in it. During operation, gas containing oil is extracted to the day surface and fed to separators, where gas condensed oil is back condensed. The gas necessary for the implementation of this method is transported from other gas fields and pumped into the oil reservoir using special compressors. Then the cycles are repeated and the gas is again pumped into the reservoir.

The disadvantage of this method is the cyclical injection of gas into the reservoir, which does not provide conditions for the complete filling of the reservoir with gas, and as a result, the complete dissolution and extraction of residual unrecoverable oil from it, as well as the need to transport gas from other gas fields with forced injection into the reservoir That requires the construction of pipeline systems, booster compressor stations and other land-based capital-intensive structures.

A known method of developing multilayer gas condensate fields, when the lower layer contains dry gas under high pressure, and the overlying layer is enriched condensate under relatively lower pressure. It is proposed to unload the contents of the lower reservoir into the upper reservoir and extract the resulting mixture from the latter using a separate production well. As a result, the pressure in the upper reservoir increases, gas is enriched from the lower horizon and the extraction of residual oil from the reservoir with relatively low pressure increases due to its dissolution in the gas condensate stream (Yu.D. Bogorad. Secondary methods of oil production and maintaining reservoir pressure in the development of oil and gas deposits. Review of foreign inventions. State Committee for Inventions, Moscow, 1965, pp. 31-32).

However, in this case, we are talking about residual oil saturation - gas condensate deposits, which is fundamentally different from the consolidated oil deposits.

Residual oil saturation of gas condensate deposits is a well-known phenomenon (A.G. Durmishyan. Gas condensate deposits, M., "Nedra", 1979, p. 79). Bound or residual liquid oil is noted in the form of small lenses, layers and is dispersed throughout the gas zone of many gas condensate fields in Western Siberia, the Orenburg region, Mangyshlak, Azerbaijan, etc. It is especially important to note that such oil does not form an independent deposit, but is actively manifested in the form of impurities to the produced gas condensate.

The source in question refers to an increase in the extraction of this particular residual oil, the content of which in the volume of a gas condensate reservoir can be from 2 to 15% of the pore volume.

Disclosure of invention

The objective of the invention is the production of non-recoverable (in this sense, residual) oil reserves from oil deposits by creating a technogenic gas-condensate-oil system in them, i.e., dissolving oil in compressed gas.

The problem is solved in that with the method of producing non-recoverable reserves - oil of multilayer oil and gas fields, which consists in dissolving free oil in a gaseous medium as a result of filling depleted oil-bearing strata with compressed hydrocarbon gas and then extracting the oil-gas mixture to the day surface, free gas from the underlying high-pressure gas-bearing horizons , by means of existing wells, by gravity they are passed into the oil-bearing part of the reservoir by perforating the production quantity in it nna injection well, and after the formation process-technological gas condensate oil deposits obtained at a specific ratio of the calculated volume of gas and oil for a certain period of time, begin to develop in its natural depletion mode.

The proposed method involves the use of free gas occurring in the lower horizons of multilayer oil and gas fields. A similar situation is typical for many oil and gas regions of the world, where multilayer deposits are characterized by successive top-down oil deposits of oil and gas, gas and oil and pure gas (gas condensate).

When filling depleted reservoirs free compressed hydrocarbon gas which is due to the natural reservoir pressure drop (P _pl) nizhezalegayuschih flows from gas bearing formations creates pressure close to the reservoir pressure in the flying nizheza3 gas bearing formation. The difference in the value of P _PL formed during the natural flow of free gas into the depleted reservoir will decrease as the oil reservoir is filled with gas. The total difference in the value of P _PL between the oil and gas bearing formations will be equal to the weight of the column of gas formed due to the difference in the depth of their occurrence. Free gas penetrating the oil reservoir sparges through the free oil and dissolves it. The degree of oil dissolution is determined by the value of Rpl created by the gas in the oil reservoir, the initial ratio of the volumes of interacting oil and gas and their initial physicochemical properties.

After some time, a technogenic oil and gas condensate or gas condensate-oil deposit is formed in the oil-bearing reservoir in communication with the gas-bearing one. The time required to implement this process depends on the size of the oil reservoir and the amount of free gas bypassed into this reservoir. The completion of this process is recorded by the results of measurements in control wells of the concentration of high-boiling hydrocarbons (condensate) in free gas. After that, the development of a newly formed deposit in the mode of natural exhaustion begins.

As a result of the implementation of the proposed method for the extraction of non-recoverable oil reserves of multilayer oil and gas fields, the estimated oil recovery coefficient reaches 0.85-0.90. The proposed method, excluding the cyclic pumping of natural gas, allows for its associated production, after cleaning it on the surface from recoverable liquid hydrocarbons.

The best embodiment of the invention

The method is as follows. For gas bypass from the underlying gas-bearing stratum, existing production wells are drilled into a gas reservoir and intersecting oil strata. In the central part of the oil reservoir, existing production wells are selected. Wells intended for gas bypass are selected on the peripheral part of the reservoir and communicate with the oil reservoir by perforating the production string in the oil part. The number of injection and production wells is selected depending on the size of the oil zone, the volume of gas bypassed and other data. The appearance in the production wells of gas inflows enriched with gas-dissolved oil (condensate) means that the oil dissolution process is being implemented and it is possible to begin developing the resulting technogenic gas-condensate-oil deposit. The gas extracted to the surface, enriched with liquid hydrocarbons, is purified in separation devices and is also sent to the consumer.

Claims (1)

CLAIM The method of extracting non-recoverable oil reserves, which consists in dissolving free oil in a gaseous environment as a result of filling depleted oil-bearing formations with compressed hydrocarbon gas and then extracting the oil-and-gas mixture to the day surface, characterized in that the free gas from the underlying high-pressure gas-bearing horizons by means of existing wells is by-passed to the oil part of the reservoir by perforation of the production casing of the injection well in it; Processes Education anthropogenic gas-condensate deposits, and then begin its development in the natural depletion mode.