RU2140961C1 - Method of destructing water-in-oil emulsions, protection of oil field equipment from corrosion, and asphaltene- resin-paraffine deposits - Google Patents

Abstract

FIELD: petroleum production industry. SUBSTANCE: composition for destructing water- in-oil emulsions, inhibiting corrosion of oil field equipment and preventing asphaltene-resin-paraffine deposits comprises, wt %: glycerol based ethylene oxide and propylene oxide blockcopolymer having molecular weight of 3000-6000. 20-80; product of reaction of ethylene oxide and propylene oxide based on glycerol and toluylene diisocyanate from (n+1):n to (n+3): n wherein n is number of toluylene diisocyanate moles, 5-20; and the composition is used for oil fields with high flooding level, and sewage purification problem can be solved. EFFECT: improved properties of the composition. 18 ex, 2 tbl

Description

 The invention relates to the oil industry and can be used to destroy water-oil emulsions, inhibiting corrosion and asphaltene-resin-paraffin deposits of oilfield equipment.

 A well-known demulsifier for breaking oil-water emulsions, protecting oilfield equipment from corrosion and asphaltene-resin-paraffin deposits - block copolymer of propylene and ethylene oxides based on glycols (RF patent N 2078095, MKI C 10 G 33/04, 1997). This demulsifier is not effective enough.

 Known demulsifier for the destruction of oil-water emulsions of highly resinous and paraffinic oils, which has anti-corrosion properties, which is the product of the interaction of a block copolymer of ethylene and propylene oxides based on glycerol with toluene diisocyanate (RF patent N 2089593, MKI C 10 G 33/04, 1997). However, the known demulsifier does not have the properties of an inhibitor of asphaltene-tar-paraffin deposits and does not allow to solve the problem of wastewater treatment in the process of oil preparation.

 Closest to the proposed invention is a composition for breaking oil-water emulsions, protecting oilfield equipment from corrosion and asphaltene-tar-paraffin deposits, including a block copolymer of ethylene and propylene oxides based on glycerol with a molecular weight of 3000-6000 and a 50% solution of ethoxylated alkyl phenol dioxane resin in (patent N 2096438, MKI C 09 K 3/00, 1997). Known demulsifier is not effective enough and does not allow to solve the problem of wastewater treatment in the process of oil preparation.

 The basis of the present invention is the creation of a composition for the destruction of oil-water emulsions, the protection of oilfield equipment from corrosion and tar-resin-paraffin deposits for oil fields with high water cut and allowing to solve the problem of wastewater treatment in oil preparation processes.

The problem is solved in such a way that the composition for breaking oil-water emulsions, protecting oilfield equipment from corrosion and asphaltene-resin-paraffin deposits, including a block copolymer of ethylene and propylene oxides based on glycerol with a molecular weight of 3000-6000 and a solvent, additionally contains the product of the interaction of the block copolymer of ethylene oxide and propylene based on glycerol with toluene diisocyanate from (n + 1): n to (n + 3): n, where n is the number of moles of toluene diisocyanate in the following ratio of components, wt.%:
Block copolymer of ethylene and propylene oxides based on glycerol with a molecular weight of 3000-6000 - 20-80
The interaction product specified above is 5-20
Solvent - Other
As a block copolymer of ethylene and propylene oxides, the composition contains block copolymers of ethylene and propylene oxides based on glycerol-Laprol with a molecular weight of 3000-6000. These block copolymers are prepared in a manner known per se (US Pat. No. 3,699,051, MKI B 01 D 17/04, 1972; Schönfeld, Ethylene Oxide Surfactants, Moscow, Chemistry, 1982, 752 pp.

Laprol 3003 is a simple polyester obtained by the alcoholate polymerization of propylene oxide with glycerol, followed by block copolymerization with ethylene oxide and a molecular weight of 3000 (TU 6-05-1513-75), or
Laprol 3603-2-12 is a polyether obtained by alcoholate polymerization of propylene oxide with glycerol followed by block copolymerization with ethylene oxide, with a molecular weight of 3600 (TU 6-05-2014-86), or
Laprol 4503 is a polyether obtained by alcoholate polymerization of propylene oxide with glycerin, with a molecular weight of 4,500, or
Laprol 5003-2-15 is a polyether obtained by alcoholate polymerization of ethylene and propylene oxides with glycerin (TU 6-55-221-1141-90), with a molecular weight of 5000, or
Laprol 60003-25-18 is a polyether obtained by alcoholate polymerization of propylene oxide with glycerol, followed by block copolymerization with ethylene oxide (TU 6-05-221-860-86), with a molecular weight of 6000.

The product of the interaction of a block copolymer of ethylene and propylene oxides based on glycerol (BS) and toluene diisocyanate (TDI) from (n + 1): n to (n + 3): n, where n is the number of moles of toluene diisocyanate, is obtained by the method described in RF patent N 2089593, MKI C 10 G 33/04, 1997. As a block copolymer of ethylene and propylene oxides based on glycerol, use:
Laprol 4503 with a molecular weight of 4,500, or
Laprol 5003-26-10 with a molecular weight of 5000 according to TU 6-55-221-1141-90, or
Laprol 6003-26-18 with a molecular weight of 6000 according to TU 6-05-221-880-86.

 Toluene diisocyanate is used in accordance with TU 113-03-17-16-84 or TU 113-03-17-17-85, or TU 113-03-331-79.

As a solvent, the proposed composition contains: aromatic hydrocarbons - Nefras Ap 120/200 - a mixture of aromatic hydrocarbons according to TU 38-101-809-90, or toluene according to GOST 5789-78, or ethylbenzene fraction according to TU 38.30225-81 (EBF), or butylbenzene fraction (BBP) according to TU 38.10297-76, or a mixture of C ₂ -C ₄ monoalkyl ethers of ethylene and diethylene glycol with alcohols in a ratio of 1: 15-19;
2. alcohols: methanol, or isopropanol (GOST 9805-84), or bottoms of the production of butyl alcohols (TU 39-5794688-002-89). As C ₂ -C ₄ monoalkyl ethers of ethylene and diethylene glycols:
MEE EG - monoethyl ether of ethylene glycol (ethyl cellosol) according to GOST 8113-88, or
MEE DEG - diethylene glycol monoethyl ether (ethylcarbitol) according to TU 6-01-5757583-6-89, or
MBE EG - ethylene glycol monobutyl ether (butyl cellosol) according to TU 6-01-646-84, or
MBE DEG - diethylene glycol monobutyl ether (butylcarbitol) according to TU 6-05-10-5-86.

3. A mixture of C ₂ -C ₄ monoalkyl ethers of ethylene and diethylene glycol: alcohols: aromatic solvents in the ratio 1: (7 - 63) :( 1 - 26), respectively.

 The proposed demulsifier is obtained by simple mixing of the components: a block copolymer of ethylene oxide and propylene based on glycerol, a product of the interaction of a block copolymer of ethylene oxide and propylene based on glycerol with toluene diisocyanate and a solvent.

 An analysis of the known solutions selected in the search process showed that in science and technology there is no object similar in terms of the claimed combination of features and advantages, which allows us to conclude that the invention meets the criteria of "novelty" and "inventive step".

 To prove the compliance of the proposed solution with the criterion of "industrial applicability" gave examples of specific embodiments of the invention.

 Example 1. (proposed). To 80 g of Laprol-3003 add 10 g of the product of the interaction of Laprol 6003-2B-18 and TDI (in a molar ratio of BS: TDI-3: 2) and 10 g of isopropanol. The mixture is thoroughly mixed until a homogeneous product.

 Examples 2-17 are performed analogously to example 1, changing the ratio of components.

 Example 18 (prototype).

The resulting compositions are colorless to yellow liquids with a density of d = 0.900-0.985 g / cm ³ , viscosity η of not more than 60 cst, pour point t _stagnation. = -50 + -60 ^o C and are presented in table. 1.

 The proposed compositions are tested for demulsifying activity, a protective effect against corrosion, asphaltene-resin-paraffin deposits, residual oil content.

We give data on the physicochemical characteristics of the oils used in the tests:
The water content of the emulsion,% - More than 80
Density at 20 ^o C, g / cm ³ - 0,900 - 0,930
Kinematic viscosity, mm ² / s at 20 ^o C, - 29.83
wt. share,%:
sulfur - 1.50 - 3.0
asphaltenes - 3.81 - 4.58
silicate resins - 6.51 - 7.52
paraffins - 4.82 - 6.53
Reagents are dosed into the emulsion in the form of a 1% solution.

 Testing.

The test demulsifier is metered into the oil-water emulsion and shaken on a Wagner laboratory shaker for 30 minutes at room temperature. Then thermostat at 40 ^o C for 2 hours and measure the amount of freely released water.

 The determination of the residual water content in oil is carried out in accordance with GOST 14870-77 by the Dean-Stark method.

The anticorrosive activity of the proposed composition is evaluated by the gravimetric method on a standard model of produced water with a salinity of 190 g / l, density 1.122 g / cm ³ , and H ₂ S content = 100-200 m / l. The tests are carried out for 6 hours on a laboratory setup of the wheel type in a closed system with a test medium moving speed of 0.4 m / s, as well as in hermetically closed circulation cells according to GOST 9.506.87. "Inhibitors of metal corrosion in oil-water environments."

The effectiveness of preventing asphaltene-resin-paraffin deposits (AFS) is evaluated by the following indicators:
1) for washing the film of oil compositions;
2) the value of the dispersion of paraffin in the composition;
3) for washing AFS.

 Determination of washing film of oil is carried out in the following order. Oil, treated with a reagent at the rate of 0.005% on an active basis, is poured into a glass tube to a certain mark and left to stand for 20 minutes. Then the oil is poured, and formation water is poured into the test tube up to half, oil is added to the mark. The tube is closed with a ground stopper, after which the tube is turned over at the same time as the stopwatch is turned on. Oil and water vary in volume. The area of the washing surface of the test tube occupied by formation water instead of oil is fixed. The result is considered to be excellent if washing of 70% of the area occurs in 30 seconds, good in 60 seconds and satisfactory in 180 seconds.

Dispersion of paraffin and surface washing. These two methods are combined in one laboratory procedure and are carried out in a conical flask in which 50 cm ^{2 of} produced water is placed, the test reagent is dosed. A paraffin weighing 0.5 g is placed in the same flask. The contents of the flask are heated until the paraffin is melted (60-90 ^o C), and then cooled by stirring. After cooling to 20-25 ^o C measure the size of the particles of the dispersion of paraffin (σ) and the area of the working surface of the flask not covered (coated) AFS (S).

 According to the methodology, the result is considered excellent with a dispersion value of 0.1-1 mm, good with a dispersion value of 1-2 mm, satisfactory with a dispersion value of 2-5 mm, unsatisfactory with a dispersion value> 5 mm. When evaluating the AFSA washing method from a surface, the result is considered to be excellent if the percentage of the surface washing (S) of the ARPD in% is 90-100, good 80-90, satisfactory 50-80 and bad <50.

 The degree of wastewater treatment is determined by the method described in OST 39-133-81 "Water for flooding oil reservoirs. Determination of oil content in field wastewater" and evaluated by the oil content in wastewater.

 The test results of the proposed composition are shown in table 2.

 Analysis of the data presented in the table shows that the claimed composition allows you to effectively destroy oil-water emulsions, protect oilfield equipment from corrosion and asphaltene-resin-paraffin deposits. In addition, the composition allows to solve the problem of wastewater treatment.

Claims (1)

Composition for breaking oil-water emulsions, protecting oilfield equipment from corrosion and asphaltene-resin-paraffin deposits, including a block copolymer of ethylene and propylene oxides based on glycerol based on mol.m. 3000-6000 and a solvent, characterized in that it additionally contains the reaction product of a block copolymer of ethylene oxides and propylene based on glycerol and toluene diisocyanate from (n + 1): n to (n + 3): n, where n is the number of moles of toluene diisocyanate, the following ratio of components, wt.%:
A block copolymer of oxides and propylene based on glycerol with a mol.m. 3000-6000 - 20-80
The product of the interaction of the block copolymer of ethylene oxide and propylene based on glycerol with toluene diisocyanate, the above - 5-20
Solvent - Other

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