RU2720113C1 - Emulsifier for invert emulsion to increase oil recovery of formations - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to oil industry, in particular to emulsifiers of invert emulsions for increasing oil recovery of formations. Emulsifier of invert emulsion for increasing oil recovery of formations, including oil-soluble surfactant - surfactant Neonol AF₉-6, oleic acid and hydrocarbon solvent, additionally contains cocamidopropyl dimethylamine or oleylamidopropyldimethylamine, and as a hydrocarbon solvent - furnace or diesel fuel, with the following ratio of components, wt. %: Neonol AF₉-6 5–10, oleic acid 5–15, cocamidopropyl dimethylamine or oleylamidopropyldimethylamine 5–15, furnace or diesel fuel, the weight ratio of oleic acid and cocamidopropyl dimethylamine or oleylamidopropyldimethylamine ranges from 1:1.5 to 1.5:1.

EFFECT: technical result is increase in the emulsifier action efficiency due to increase of displacing ability in relation to oil.

1 cl, 1 tbl, 1 ex

Description

The invention relates to the oil industry, in particular to invert emulsion emulsifiers to increase oil recovery.

Known emulsifier - stabilizer of invert emulsions (US Pat. RU No. 2320403, IPC B01F 17/14, B01F 17/22, C09K 8/035, publ. 03/27/2008, bull. No. 9), including oil-soluble surfactant - Surfactant, hydrocarbon solvent and glycerin in the following ratio, wt. %: oil-soluble surfactant - 10.0-30.0, glycerol - 0.5-2.5, hydrocarbon solvent - the rest. As an oil-soluble surfactant, the emulsifier contains Ca-phosphadine - the product of the interaction of a mixture of fatty acids of vegetable oils, which is a phosphatide concentrate (kofos), monoethanolamine or diethanolamine and a complexing agent - calcium oxide.

A disadvantage of the known emulsifier is the low efficiency of its use for increasing oil recovery from formations with highly mineralized potassium chloride water due to the low emulsifying ability with respect to highly mineralized potassium chloride water and the low stability of the resulting emulsions.

Known emulsifier of invert emulsions (US Pat. RU No. 2296614, IPC B01F 17/22, C09K 8/035, publ. 10.04.2007, bull. No. 10), including oil-soluble surfactant and hydrocarbon solvent in the following ratio, wt. %: oil-soluble surfactant - 5-30, hydrocarbon solvent - the rest. As an oil-soluble surfactant, it contains an active emulsifier base obtained by reacting alkanolamine and a mixture of fatty acids of the limiting and unsaturated series with a hydrocarbon solvent C ₈ -C ₂₂ when heated.

The disadvantages of the known emulsifier are low emulsifying ability and low rheological characteristics of the resulting emulsions.

A known emulsifier of invert emulsions (US Pat. RU No. 2336291, IPC C09K 8/035, C09K 8/36, publ. 20.10.2008, bull. No. 29), which contains, by weight. %: product of tall oil processing based on higher fatty acids - 6.2-22.0, potassium alkaline reagent - 4.2-13.5, water - 4.5-14.6, solvent - non-aromatic light mineral oil - the rest .

A disadvantage of the known emulsifier is the low efficiency of its use for increasing oil recovery from formations with highly mineralized potassium chloride water due to incompatibility with highly mineralized potassium chloride waters, which is expressed in the formation of bulk inorganic sediments and loss of emulsifier efficiency.

Known emulsifier, which is used to prepare a hydrophobic emulsion for processing oil reservoirs (US Pat. RU No. 2379326, IPC C09K 8/584, publ. 20.01.2010, bull. No. 2). The specified emulsifier is a hydrocarbon solution of alkanolamine esters and oleic acid amides and additives of nonionic surfactants.

A disadvantage of the known emulsifier is the low efficiency of its use for increasing oil recovery from formations with highly mineralized potassium chloride water due to the low emulsifying ability with respect to highly mineralized potassium chloride water and the low stability of the resulting emulsions.

Known emulsifier, which is used to prepare an emulsion composition for limiting water inflows, aligning the injectivity profile and killing wells (US Pat. RU No. 2539484, IPC C09K 8/42, C09K 8/506, publ. 01.20.2015, bull. No. 2) . The specified emulsifier includes as an active substance the product of the interaction of fatty acids and amines, as an additive, a nonionic surfactant, and as a solvent, alcohol, in the following ratio of components, wt. %: the product of the interaction of fatty acids and amines - 2-80, nonionic surfactant - 2-60, alcohol - the rest.

A disadvantage of the known emulsifier is the low efficiency of its application due to the limited treatment zone of the formation due to the low emulsifying ability and low viscosity of the resulting emulsions.

The closest in technical essence to the proposed emulsifier is an invert emulsion emulsifier-stabilizer (US Pat. RU No. 2613975, IPC B01F 17/00, C09K 8/00, C11D 1/04, C11D 3/43 publ. 03/22/2017, bull. . No. 9), including the oil-soluble surfactant Neonol AF ₉ -6 and oleic acid in a ratio of 2: 1 and a hydrocarbon solvent in the following ratio of components, wt. %: Neonol AF ₉ -6 and oleic acid - 15-39, hydrocarbon solvent - the rest.

The disadvantage of the emulsifier is the low efficiency due to the low displacement ability with respect to oil.

The technical task of the proposal is to increase the effectiveness of the emulsifier by increasing the displacing ability in relation to oil.

The technical problem is solved by an invert emulsion emulsifier to increase oil recovery, containing an oil-soluble surfactant - surfactant Neonol AF ₉ -6, oleic acid and hydrocarbon solvent.

It is new that the emulsifier additionally contains cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine, and furnace or diesel fuel is used as the hydrocarbon solvent in the following ratio of components, wt. %:

Neonol AF ₉ -6 5-10 oleic acid 5-15 cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine 5-15 heating oil or diesel rest,

moreover, the mass ratio of oleic acid and cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine is from 1: 1.5 to 1.5: 1.

To prepare an invert emulsion emulsifier to increase oil recovery, use:

- Neonol AF ₉ -6, which is an ethoxylated isononylphenol with a degree of hydroxyethylation of 6;

- oleic acid, which is an unsaturated fatty acid of the general formula CH ₃ (CH ₂ ) ₇ CH = CH (CH ₂ ) ₇ COOH, in appearance an oily liquid insoluble in water;

- heating oil or diesel fuel, which is a liquid mixture of hydrocarbons with a pour point below 0 ° C and a self-ignition temperature above 40 ° C;

- cocamidopropyl dimethylamine, which is an organic yellow viscous liquid without sediment and impurities, characterized by an amine number in the range 109.0-114.0 mg HCl / g (TU 2413-027-04706205-2015);

- oleylamidopropyl dimethylamine, which is an organic viscous liquid from yellow to brown in color without sediment and impurities, characterized by an amine number in the range of 90.0-105.0 mg HCl / g and an acid number of not more than 5.0 mg (TU 2413-027- 04706205-2015).

The mechanism of action of the emulsifier is as follows. Due to the correctly selected composition of the emulsifier components, the formation of an emulsion occurs due to the simultaneous action of primary and secondary stabilizers, which are formed by the reaction of cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine and oleic acid. The combination of stabilizers of the emulsion provides dispersion of the aqueous phase in the oil phase, prevents the coalescence of droplets of the dispersed phase, hydrophobizes the surface of the solid phase and reduces filtration losses when the emulsifier or emulsion based on it is injected into the formation.

As a primary stabilizer, an oil-soluble surfactant is used, which, due to a decrease in interfacial tension and micelle formation, provides a decrease in free surface energy, due to which water is dispersed in the external oleophilic phase and an emulsion is formed. The result is a highly dispersed colloidal phase. The formation of secondary stabilizers occurs due to the interaction of cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine and oleic acid. The resulting compounds are concentrated on the interface, hardening the structure of the emulsion and stabilizing it. The unreacted residue of cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine is a water repellent and surface modifier. As a reagent that increases the rheological characteristics of the resulting emulsion, an unreacted oleic acid residue, an unsaturated fatty acid, is used. Oleic acid molecules are prone to double bond polymerization with the formation of a spatial structure, which additionally strengthens the emulsions formed at low shear rates.

The combination of properties of the components of the emulsifier, provides the formation of an emulsion with adjustable viscosity parameters and high aggregative stability and with a hydrophobic effect. The indicated properties of the resulting emulsion provide an increase in the displacement ability of the emulsifier in relation to oil.

An invert emulsion emulsifier to increase oil recovery is prepared as follows.

To prepare the emulsifier, Neonol AF ₉ -6, oleic acid, cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine in marketable form are metered in a furnace or diesel fuel with constant stirring with a mechanical stirrer in the following ratio, wt. %:

Neonol AF ₉ -6 5-10 oleic acid 5-15 cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine 5-15 heating oil or diesel rest,

moreover, the mass ratio of oleic acid and cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine is from 1: 1.5 to 1.5: 1.

Then carry out mixing until the complete dissolution of the components of the emulsifier.

An example of the preparation of a specific emulsifier in the laboratory. It is required to prepare an emulsifier containing components, wt. %:

Neonol AF ₉ -6 7 oleic acid 10 cocamidopropyl dimethylamine 10 heating oil 73.

73 g (73 wt.%) Of heating oil is poured into a measuring cup with a volume of 200 cm ³ , the rotary element of the mechanical mixer is lowered into the glass, and the mechanical mixer is turned on. Then, under constant mechanical stirring dosed Neonol AF ₉ -6 - 7 g (. 7 wt%), oleic acid (10 g, 10 wt.%), Kokamidopropildimetilamin - 10 g (10 wt.%). The mass ratio of oleic acid and cocamidopropyl dimethylamine is 1: 1. Then carry out mixing until the complete dissolution of the components of the emulsifier.

The effectiveness of the invert emulsion emulsifier to increase oil recovery is achieved by increasing the displacement ability with respect to oil.

The displacing ability of the emulsifier and the closest analogue with respect to oil was evaluated by performing filtration experiments on reservoir models in terms of an increase in the oil displacement coefficient and a multiplicity of increase in the relative liquid flow rate of a low-permeable layer. The experiments were carried out on reservoir models, which are two identical tubes 0.5 m long with a cross-sectional area of 6.4 cm ² filled with quartz sand. By selecting the size of the quartz sand grains, the necessary channel permeability of the formation model was created. Water with a mineralization of 0.15 to 150 g / dm ^{3 was} passed through the model, which was then replaced with oil with a density of 0.810-0.890 g / cm ³ . Next, the primary displacement of oil by water was carried out with measurement of the output of oil and water volumes and the coefficient of oil displacement was determined. Then, alternately a portion of the emulsifier and a portion of water 3-5 cycles were pumped. Next, oil was replaced by water with a measurement of the output of oil and water. The displaced oil was used to determine the increase in the oil displacement coefficient and the rate of increase in the relative flow rate of the low-permeability interlayer fluid.

The research results of the invert emulsion emulsifier to increase oil recovery by increase in oil displacement coefficient are presented in the table.

The table shows that the proposed invert emulsion emulsifier to increase oil recovery provides a significantly greater oil displacement coefficient and the multiplicity of the increase in the relative liquid flow rate of the low-permeability layer in comparison with the closest analogue. The oil displacement coefficient of the proposed emulsifier is 1.8-3.8 times higher, and the ratio of the increase in the relative liquid flow rate of the low permeability layer is 1.45-2.49 times higher than that of the closest analogue.

A decrease in the concentration of emulsifier components leads to a decrease in the increase in the coefficient of oil released during the chemical reaction. An increase in the concentration of components in the emulsifier is impractical due to a slight increase in the oil displacement coefficient and the multiplicity of the increase in the relative flow rate of the low-permeability interlayer liquid when the composition is more expensive.

Claims (3)

Emulsifier invert emulsion for enhanced oil recovery comprising an oil-soluble surfactant - surfactant Neonol AF -6 _9, oleic acid, and a hydrocarbon solvent, characterized in that the emulsifier further comprises kokamidopropildimetilamin or oleilamidopropildimetilamin, and as the hydrocarbon solvent used furnace or diesel fuel when the following ratio of components, wt.%: Neonol AF ₉ -6 5-10 oleic acid 5-15 cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine 5-15 heating oil or diesel rest, moreover, the mass ratio of oleic acid and cocamidopropyl dimethylamine or oleylamidopropyl dimethylamine is from 1: 1.5 to 1.5: 1.