RU2258135C1 - Method for completely washing out residual oil by increasing laminated heterogeneous reservoir sweep by means of flooding thereof - Google Patents

Abstract

FIELD: oil producing industry, particularly enhanced recovery methods for obtaining hydrocarbons.

SUBSTANCE: method involves injecting dispersion of oil-soluble nonionic surfactant of oxyethylated alkyl phenol with 5-7 oxyethyl groups in mineralized water into reservoir through injection wells; forcing above dispersion of 1-2% concentration in amount of 750-1500 m³ per one well into reservoir with the use of mineralized water taken in amount of 1-2 well borehole volumes; sustaining technological time interval for 7-14 days.

EFFECT: increased efficiency of oil washing out with the use the dispersion of oxyethylated alkyl phenol in mineralized water due to increased reservoir sweep, reduced costs.

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Description

The proposal relates to the oil industry, in particular to methods of additional washing of residual oil by increasing the coverage of layered heterogeneous formations by water flooding.

A known method of intensification of oil production using a technological solution with the addition of 0.1-10% oil-soluble surfactant based on alkoxylated derivatives of lignin (US Pat. US No. 5230814, E 21 B 43/22 from 12.06.90,). Its disadvantage is the low efficiency of oil displacement.

There is also a method of increasing the efficiency of oil displacement of nonionic oil-soluble surface-active substances (nonionic surfactants) by mixing them with mineralized water (Pat. RF No. 2093670, E 21 B 43/22, 10/20/97. Bull. No. 29). The introduction of mineralized water into the nonionic surfactant solution makes it possible to reduce interfacial tension at the oil-water interface by up to 10 times and helps to reduce the sorption of nonionic surfactants on the carbonate rock of the reservoir.

Its disadvantage is low coverage by flooding of stratified inhomogeneous formations.

The closest in technical essence to the proposed method is a method (prototype) of residual oil washing, including the injection into the reservoir of an aqueous dispersion of ethoxylated alkyl phenol with the number of hydroxyethyl groups 5-7 and a concentration of 5-20 wt.% In the amount of 0.025-0.1 of the pore volume formation at a constant flow AF ₉ -5-7 (Pat. Russian №1445295, E 21, 15.12.94. Bull. №23).

Its disadvantage is the high consumption of ethoxylated alkyl phenol, as a result of which high material costs. Injection of an alkylphenol dispersion with subsequent connection to a water conduit does not contribute to the redistribution of surfactants between oil and water, which leads to low coverage of layered heterogeneous formations by water flooding.

The technical task of the proposed method is to increase the efficiency of residual oil washing with a dispersion of hydroxyethylated alkyl phenol (with the number of hydroxyethyl groups 5-7) in mineralized water by increasing the coverage of layered heterogeneous formations by water flooding and reducing material costs.

The problem is achieved in that in the proposed method of residual oil washing with an increase in the coverage of layered heterogeneous reservoirs by flooding, a dispersion of oil-soluble nonionic surfactant of ethoxylated alkyl phenol with the number of 5–7 AF _9-5-7 in the mineralized water is injected into the formation through injection wells .

New is that the dispersion of ethoxylated alkyl phenol with a concentration of AF _9-5-7 1-2 wt.% In a volume of 750 m ³ -1500 m ³ per well is pressed into the formation with saline water in the amount of 1-2 volumes of the wellbore, after which increase in reservoir coverage by flooding produce a technological pause for 7-14 days.

The effectiveness of the proposed method is due to the following. After pumping the calculated volume of dispersion AF -5-7 ₉ in mineralized water and forcing its mineralized water in an amount of 1-2 volumes of a wellbore in accordance with the volume injected produce dispersion process pause of 7-14 days in accordance with the volume injected dispersion to so that redistribution of the surfactant between oil and water occurs in the formation. As a result of such redistribution, micro- and macroemulsion systems are formed that contribute to an increase in filtration resistance and coverage of layered heterogeneous formations by water flooding.

Oxyethylated alkyl phenols with the number of hydroxyethyl groups 5-7 are oil-soluble nonionic surfactants. They dissolve in water to form dispersions. They are used for waterflooding of oil reservoirs, for drilling wells, as part of cutting fluids, hydraulic and other process fluids. AF ₉ -5-7 nonionic surfactant produced by JSC "Nizhnekamskneftekhim" TU 2483-077-05766801-98.

Studies of patent and scientific and technical literature have shown that such a combination of essential features is new and has not been used before, which, in turn, allows us to conclude that the technical solution meets the criterion of "novelty."

The application of these significant features that perform a similar task is not known. Therefore, the proposed method meets the criterion of "inventive step".

The study of the effect of this method of residual oil washing out by increasing the coverage of layered heterogeneous reservoirs by flooding on changes in filtration and oil displacing parameters, as well as comparison with the prototype was carried out using physical models of layered inhomogeneous porous media with impermeable interfaces.

Laboratory bulk models consisted of two identical stainless steel tubes with a length of 150 cm, an inner diameter of 2.7 cm, densely filled with ground quartz sand, with a common entrance and separate exits. At the same time, one tube (a more permeable interlayer) contained sand, the oil permeability of which was several times higher than the permeability of sand in another tube (a less permeable interlayer).

As displaced oil, degassed Devonian oil with the Karabash gas treatment unit viscosity at a temperature of 20 ° C of 13-19 MPa · s was used.

Oxyethylated alkyl phenol based on propylene trimers AF ₉ -6, where 9 is the number of carbon atoms in the alkyl radical, 6 is the average number of moles of ethylene oxide attached to one mole of alkyl phenol, was used as an oil-soluble nonionic surfactant.

A model of wastewater (with a mineralization of at least 100 g / l) was used as mineral displacing water.

Primary oil displacement was carried out to a total water cut of residual oil of up to 95-99%. Thereafter, the total model input pumped dispersion of 1% -6 AF ₉ in the waste water in a volume of 7.5 cm ^3, which presses the waste water and then carry out technological pause for 7 days. Prototype pumped 10% dispersion AF -6 ₉ in the waste water in the amount of 0.05 pore volume (12.5 ^cm3).

The main conditions and average results of oil displacement on two-layer models according to the proposed and known methods are presented in table 1. A comparison was made of their filtration and oil displacing properties.

As can be seen from table 1, the initial parameters for each method are very close (oil permeability ratio, partial flow rates of each tube, oil displacement coefficient by mineralized water). However, after the oil is washed out with dispersion AF ₉ -6 in wastewater, the picture changes according to the known and proposed method. The average value of the final oil displacement coefficient by the proposed method was 75.2%, and by the known method only 68%, and accordingly, the increase in the displacement coefficient was 13.2 and 5.8%.

As a filtration parameter characterizing the unevenness of the displacement process in two differently permeable tubes, we used the partial (relative) flow rate of the liquid of the less permeable interlayer q before and after displacement of the rim. Obviously, the more the partial production rate of a less permeable formation has increased, the more effective this method of oil displacement from the point of view of covering water-inhomogeneous formations with permeability of formations. The partial flow rate of a less permeable tube during the implementation of the proposed method increased from 0.26 to 0.81, i.e. 3.12 times, and in the prototype from 0.27 to 0.50, i.e. 1.85 times. Gain partial flow rate less permeable tube after injection of 1% -6 dispersion AF ₉ in the effluent was 0.55 and 0.23 for the prior art.

Thus, the proposed method has a significant positive effect on the change in the filtering heterogeneity of the layered heterogeneous formations, which leads to an increase in the coverage factor by displacement.

It should be noted that the concentration of AF ₉ -6 in the dispersion of the proposed method is 10 times less than that of the known one, which leads to a decrease in material costs and to an increase in the technological efficiency of the method.

The main parameters of the effectiveness of enhanced oil recovery (EOR) methods aimed at increasing the coverage by water flooding are the resistance factor (FS) and the residual resistance factor (OFS). Resistance factor is the ratio of the mobility of water to the mobility of the displacing solution during filtration in a porous medium. The residual resistance factor is the ratio of water mobility before exposure to water mobility after exposure to EOR. The more PS and OFS with a minimum reagent content in the displacing solution, the more technologically and cost-effective its use in oil production.

Table 2 presents the main conditions and results of the displacement of oil from Devonian cores by aqueous dispersions based on oil-soluble nonionic surfactants using a laboratory installation Autoflood (AFS-300) company Core Laboratories Instruments (USA) according to the proposed and known methods. We used standard cores of terrigenous Devonian rocks with a diameter of 2.7-3.0 cm and a length of 3.5-4.0 cm. The permeability and porosity of the cores have close values, therefore, the initial conditions for testing the proposed and known method are the same.

As a result, high values of the displacement coefficient (Qu.) Were obtained. According to the proposed method, the average Quatt. amounted to 88.4%, and according to the known method, 75.4%, i.e. 13% more. Filtration dimensionless parameters such as resistance factor and residual resistance factor in 1-2% variance AF -6 ₉ in the wastewater from a technological pause turned many times higher than the 10% dispersion AF -6 ₉ in the waste water of the prototype, respectively, 2.4-4.5 times and 4.1-5.7 times. The specific technological efficiency of the proposed method is 2-3 times higher than that of the prototype.

The method is carried out in the following sequence. On the developed oil reservoir, where the water cut is 96-98%, and the residual oil saturation is not less than 35-40%, periodic pumping (1-2 times a year) through injection wells of 1-2% dispersion of oil-soluble nonionic surfactants is made into the well using pumping units in a volume of 750 m ³ -1500 m ³ (1-2 tankers of a commercial product of JSC Nizhnekamskneftekhim) per well in mineralized water. After forcing the dispersion of oil-soluble nonionic surfactants with mineralized water in the amount of 1-2 volumes of the wellbore, a technological pause is made for a duration of 7-14 days (1-2 weeks). Then they switch to the injection in the usual mode and observe the response of hydrodynamically coupled producing wells (change in water cut of produced products, oil production rate, etc.). If these wells have not reacted for six months, then the proposed method is repeated in the above sequence.

The application of the proposed method allows to increase the efficiency of oil displacement by increasing the coverage of stratified inhomogeneous formations by water flooding, to increase the washing out of residual oil and to reduce material costs through the use of low concentrations of oil-soluble nonionic surfactants based on ethoxylated alkyl phenols.

Claims (1)

Method dootmyva residual oil increased coverage layered strata by water flooding, comprising pumping into the formation through injection wells dispersion of the oil soluble nonionic surfactant an ethoxylated alkyl phenol with the number of hydroxyethyl groups 5-7 -5-7 AF ₉ in mineralized water, characterized in that said dispersion with a concentration of ₉ AF -5-7 1-2 wt.% in a volume of 750-1500 m ³ per well is forced into the formation of mineralized water in an amount of 1-2 volume wellbore thereafter produce Technological ical pause for 7-14 days.