SU1668642A1 - Oil displacement compound - Google Patents

Abstract

This invention relates to an oil producing industry, in particular, compositions for enhanced oil recovery. The composition contains the following components in their ratio, wt.%: Neonol AF ₉ -4 2,0 - 6,0

anionic surfactant 6.0 - 12.0

liquid hydrocarbon 10.8 - 30.0

water - the rest. The composition is prepared by dissolving predetermined amounts of AF ₉ neonol -4 hydrocarbon and anionic surfactants in water, then to a hydrocarbon solution in small portions was added an aqueous solution of anionic surfactants with stirring to give a homogeneous system. The use of the composition makes it possible to increase the oil displacement coefficient by 1.2–1.5 times. 1 tab.

Description

The invention relates to the oil industry, in particular, compositions for enhanced oil recovery.

The purpose of the invention is to improve the oil production ability of the composition.

For this, the composition to displace oil from the reservoir containing neonol AF9-4, a water-soluble surfactant, a liquid hydrocarbon and water, as the water-soluble surfactant is introduced an anionic surfactant in the following ratio of components, wt.%:

Neonol AFg42,0-6,0

APAV6.0-12.0

Liquid hydrocarbon10.8-30.0

Water52.0-77.7

APAV has a liquid consistency, medium viscosity, dark brown color, low specific odor. Density is 1.07-1.09 g / cm3. It is well dissolved in fresh, sea and formation water, forming colloidal solutions.

Neonol AFd-4 is an oxyethylated alkylphenol based on propylene trimers. Contains 99.83% of the active substance (including 1.8% of polyethylene schools), 0.17% of water. The reaction medium (pH) of a 1% solution in distilled water is 6.2. It is well dissolved in gas condensate, kerosene, diesel fuel, etc.

The composition is prepared as follows. In certain volumes of hydrocarbon solvent and water, the required amount of neonol AF8-4 is dissolved to the anti-alkaline surfactant, respectively, then to the measured volume

a solution of AFD-4, a certain volume of the solution of anionic surfactants is added and the mixture is stirred until a homogeneous mixture is obtained. Then the required volume of water and hydrocarbon liquid is added alternately in small portions to the resulting mixture. After each serving of liquid, mix thoroughly,

As the hydrocarbon phase of the proposed composition, stable gas condensate, kerosene, diesel fuel or other fractions of petroleum hydrocarbons with boiling points, corresponding gasoline, kerosene or gas oil fraction (50-300 ° C) and density of 0.6-0.8 g can be used. / cm3.

As the aqueous phase of this composition, you can use water with a total mineralization of up to 17 g / l and a total content of hardness salts up to 1.3 g / l, in particular - fresh, technical, sea and low-mineralized formation water. When using these waters, a sufficiently high solubilization is observed (up to 80%).

The effectiveness of the proposed composition is achieved due to low interfacial tension (less than N / m) at the boundary with oil and water, high viscosity (7-20 mPas) and stability at high temperatures.

An example of a specific implementation. AT

4.2 g of neonol AFE-4 was dissolved in 17.0 g of kerosene, and 8.7 g of anionic surfactant was dissolved in 29.0 g of seawater. The mixture is stirred until a homogeneous system is obtained. Then to the resulting system in small portions (5 g each) are added

41.1 g of seawater. After each portion of water, the system is stirred until complete co-distillation of water. The resulting solution contains 4.2% neonol AFE-4, 8.7% anionic surfactant, 17.0% kerosene and 70.1% seawater.

In order to compare the developed composition with the known one, experiments were carried out to displace residual oil (viscosity at 50 ° C is equal to 2.6 mPa-s) from a linear model of a water-flooded formation (length 0.44 mm, diameter 0.02 m) with permeability 4, 75-6.90 microns2. The latter is a sand of surface outcrops of productive rocks.

The experiments were carried out at 50 ° C according to the following procedure.

The reservoir model under vacuum is saturated with reservoir water, which is then replaced with a model of oil (70% oil and 30% kerosene). Oil is displaced by seawater until the liquid is completely flooded. Then, residual oil is washed out by pumping the rim of a given composition in the amount of 20% of the pore volume. In order to uniformly advance the rim in a porous medium, after the solution, a 0.16% solution of PAA polyacrylamide in the amount of 50% of the pore volume and 200% of the seawater in volume are sequentially pumped.

The oil forcing capacity of the known and given compositions is given in the table.

The petroleum extrusion capacity of this composition is higher than that known, which is achieved due to the formation of a strong mixed micelle from AFD-4 and anionic surfactants with the proposed ratio of components

Under industrial conditions, the composition is prepared as follows. Into a container for preparing the composition by a centrifugal pump with a capacity of 100 m3 / h, 3.1 t of AFd-4 is loaded, and then 10.8 tons of hydrocarbon solvent. Both components are mixed with the same pump for 20 minutes. 8.4 g of anionic surfactants and 77.7 tons of seawater are loaded into another container in the same way and the contents of the container are mixed. The resulting solution is pumped into the tank to prepare the composition, i.e. mix solutions AFE-4 and anionic surfactants. After stirring for 30 minutes, the resulting solution is pumped into a storage tank, from which it is pumped into the injection

well.

For the preparation of the composition in industrial conditions, special equipment and units are not required.

Claims (1)

Compared to the known, this composition has the best oil-displacing ability, it is stable during long-term storage and temperatures up to 95 ° C. containing neonol AFD-4, a water-soluble surfactant, a liquid hydrocarbon and water, characterized in that, in order to improve oil-consuming ability, as a water-soluble surfactant, it contains an anionic surfactant in the following ratio of components, wt.%: Neonol AFE-42.0-6.0 Anionic PAV6,0-12,0 Liquid hydrocarbon10.8-30.0 Water.The rest. Oil production capacity of this composition and prototype