RU2704159C1 - Method of developing hydrocarbon deposits - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil and gas industry during development of oil, oil and gas and gas condensate deposits complicated by availability of water-hydrocarbon emulsions in productive formations by means of cyclic electromagnetic action. Method envisages monitoring of the product produced from the deposit – oil (gas condensate) and total volume of the liquid before electromagnetic action and after a certain period of time. Electromagnetic action is carried out cyclically, total volume of liquid (oil+water) and oil is determined without electromagnetic action and with electromagnetic action. Based on the obtained total liquid volume Ʃ^t ₀Ql(t) and oil Ʃ^t ₀Qo(t) measurements, the dependency curves lgƩ₀ ^tQo(t)=ƒlgƩ₀ ^tQl(t) are plotted based on these relationships, the relationship values are determined: F(e)=(lgƩ₀ ^tQo(t))/(lgƩ₀ ^tQl(t)) – at electromagnetic action and F(0)=(lgƩ₀ ^t1Qo(t))/(lgƩ₀ ^t1Ql(t)) – before electromagnetic action, where t₁ is the beginning time of the electromagnetic action on the deposit. Ratio F(e)/F(₀). At F(e)/F(₀)≤1 electromagnetic action process is terminated, and at F(e)/F(₀)>1 electromagnetic process is continued.

EFFECT: increasing oil recovery.

1 cl, 3 dwg

Description

The invention relates to the oil and gas industry in the development of oil, oil and gas and gas condensate fields, complicated by the presence in the reservoirs of water-hydrocarbon emulsions, by cyclic electromagnetic exposure.

The method can be applied at various stages of the development of hydrocarbon deposits in the presence of two or more wells that have opened this reservoir.

Known methods of exposure to hydrocarbon deposits, especially those containing highly viscous oil by exposure to electromagnetic waves, under the influence of which various emulsions are destroyed, including water-oil.

As a result, the mixtures are separated into water, which sinks into the lower part of the reservoir or fills the low-permeable, hydrocarbon-free reservoir volumes, and hydrocarbons, due to the decreased viscosity compared to the viscosity of the emulsion, enter the well in a large volume.

The well-known "Method for the production of oil, natural gas and gas condensate by electromagnetic resonant displacement of them from the reservoir" (patent No. 2425962, CL EV 43/16, publ. 08/10/2011 Bull. No. 22).

To increase the efficiency of hydrocarbon excitation, alternating electric current is passed through water in the lower part of the reservoir.

The well-known "Electrochemical method of secondary oil production by initiating redox reactions in it" (patent No. 2303692, CL ЕВВ 43/16 (2006.1), published on July 27, 2007 Bull. No. 21).

The resonant-wave generator is immersed to the depth of the perforation zone in the producing well and in one of the nearest wells, including injection, create counter-directed flows, modulate electromagnetic oscillations that resonate with the natural frequency of vibrations of dipole molecules of hydrocarbons (oil, gas, gas condensate).

Then an alternating electric current is passed through water from below, with a frequency resonating with vibrations of hydrocarbon dipole molecules over the entire length of the formation between the wells.

Electrolysis is generated in each well, forming dissolving dioxides, and as a result, the viscosity of the oil decreases.

The well-known "Method for the development of oil deposits" (patent No. 2221118, class ЕВВ 43/24 (2000.01 publ. November 27, 2004 Bull. No. 33).

The method includes pumping a working agent through injection wells, taking oil through production wells, and supplying electric current to the reservoir.

As a result of the electrical effect on the oil-bearing formation, the formation is heated to a predetermined temperature, the phase permeability of the oil-water fluid changes in a radius exceeding the radius of the thermal effect. Oil recovery is increasing. The frequency of the current is not resonant.

The well-known "Method for the development of oil and gas condensate fields" (patent No. 2208141, CL 43/24 (2000.01), publ. 07/10/2003 Bull. No. 19).

The invention relates to a method for producing oil by applying high frequency electric pulses to a reservoir.

The well-known "Method of intensification of oil production by electromagnetic effects on the reservoir" (patent No. 2379489, CL ЕВВ 43/6 (2006.01), publ. 01.20.2010 Bull. No. 2), adopted as a prototype.

The method involves generating counter electromagnetic fluxes with frequencies that resonate the natural frequencies of reservoir hydrocarbons.

A disadvantage of the known methods is the lack of control over the implementation and management of the process of influencing the formation and the bottomhole zone of the well.

The technical result of the claimed invention is to increase oil recovery.

и нефти

строят графики зависимости The specified technical result is achieved by the fact that in the method of developing hydrocarbon deposits, including electromagnetic resonance effects on the reservoir, in which using resonant wave generators located on the surface or immersed in the well, electromagnetic oscillations are created in the reservoir, which are superimposed on the natural frequency vibrations of the hydrocarbon fluid, forming resonant electromagnetic vibrations and control resonant vibrations using placed on the turn NOSTA apparatus according to the invention the electromagnetic action is carried out cyclically determine the total volume of liquid (oil + water) and oil prior to exposure to electromagnetic cyclic and cyclic electromagnetic action, according to the measurements obtained total volume of fluid

and oil

build dependency graphs

determine the change in time relationship

before the cyclic electromagnetic effect F ( ₀ ) and with the cyclic electromagnetic effect F (e), find the ratio F (e) / F ( ₀ ), with the ratio F (e) / F ( ₀ ) ≤1 the process of cyclic electromagnetic exposure to the formation stop, and with the ratio F (e) / F ( ₀ )> 1, the process of cyclic electromagnetic impact on the reservoir continues.

The process of destruction of the emulsion due to the electropulse exposure is justified in the article: "The intensification of the destruction of oil and water-oil emulsions using the electropulse effect" / II. Shepelev, V.P. Tverdokhlebov, A.P. Khuzeev, A.V. Krivonosenko // IV international conference "Chemistry of oil and gas" (Tomsk, October 2-6, 2000). - Tomsk, 2000. -. S. 420-422.

It is noted that “under the influence of high energies of a pulsed discharge, shock waves of compression and a directed change in the electrical properties of the system, a violation of the aggregate stability of the emulsion is observed and the process of its separation is intensified."

These phenomena can occur in the reservoir and in the bottomhole zone of the well even after the cessation of electromagnetic exposure.

The experiments performed in real oil-saturated formations showed that after the electromagnetic effect on the oil-saturated formation ceases, the formed magnetic field and the emulsion destroyed by it continue to beneficially affect the flow of hydrocarbon fluid to the well.

In FIG. Figures 1, 2, 3 show the results obtained in the conditions of the deposits of the Lower Bashkir and Bobrikov horizons of the Bakhmetyevsky and Klenovsky deposits, respectively.

от

на основании которых определяют значение отношения:According to the actual results obtained by electromagnetic exposure to oil-saturated deposits of the Lower Bashkir and Bobrikov horizons of the Bakhmetyevsky and Klenovsky deposits, wells 511, 66, 437 (Figs. 1, 2, 3) are plotted

from

on the basis of which determine the value of the relationship:

- суммарное количество добытой из скважины (или залежи) нефти, м³;Where

- the total amount of oil extracted from the well (or reservoir), m ³ ;

- суммарное количество добытой из этой же скважины (или залежи) нефти с водой, м³.

- total amount of oil and water extracted from the same well (or reservoir), m ³ .

The value of the ratio F ( ₀ ) before the electromagnetic effect on the reservoir is also determined:

where t ₁ is the start time of the electromagnetic effect on the reservoir.

The graphs show the lines corresponding to the beginning of the electromagnetic action on the formation, as well as the lines corresponding to the repeated electromagnetic actions during the selection of products from the reservoir.

The response of the reservoir-well system to electromagnetic exposure is estimated by the ratio of the value of F (e) / F ( ₀ ).

With the ratio F (e) / F ( ₀ )> 1, an increase in the amount of oil produced from the electromagnetic effect on the reservoir is obtained.

When the ratio F (e) / F ( ₀ ) ≤1 - the effect of increasing the amount of oil produced is not obtained or it is negative.

находить значения отношения F(э)/F(0) и в соответствии с полученными результатами продолжать процесс электромагнитного воздействия на залежь или прекращать.Therefore, with a cyclic electromagnetic effect on an oil deposit, it is necessary to constantly monitor, at certain intervals to determine

find the values of the ratio F (e) / F (0) and, in accordance with the results obtained, continue the process of electromagnetic action on the reservoir or stop it.

Moreover, in the case of parallelism of the lines AB and A ₁ B ₁ (Fig. 1), it is possible to carry out the next electromagnetic effect.

Claims (3)

A method for developing hydrocarbon deposits, including electromagnetic resonance action on a reservoir, in which, using resonant wave generators located on the surface or submerged in a well, electromagnetic waves are created in the reservoir, which superimpose on the natural frequency of vibrations of the hydrocarbon fluid, forming resonant electromagnetic waves and control resonant vibrations using placed on the surface of the equipment, characterized in that the electromagnetic the e effect is carried out cyclically, the total volume of liquid (oil + water) and oil is determined before the start of the cyclic electromagnetic effect and during the cyclic electromagnetic effect, according to the measurements of the total liquid volumes obtained

and oil

build dependency graphs

determine the change in time relationship

before the cyclic electromagnetic effect F ( ₀ ) and when the cyclic electromagnetic effect F (e), find the ratio F (e) / F ( ₀ ), when F (e) / F ( ₀ ) ≤1, the cyclic electromagnetic effect on the reservoir is stopped and at F (e) / F ( ₀ )> 1, the process of cyclic electromagnetic impact on the formation is continued.

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