RU2185400C1 - Composition for destruction of water-oil emulsions and protection of oil field equipment from asphaltene-resin-paraffin deposits and corrosion - Google Patents

Abstract

FIELD: oil and oil processing industry. SUBSTANCE: composition comprises 15-50 wt.% of oxyethylated product of condensation of monoalkylphenol of C₄-C₃₀-alkyl chain or its mixture with dialkylphenol of C₄-C₃₀-alkyl chain with formaldehyde-containing product in their mole ratio = 1: (0.8-1.2) as measured for formaldehyde, 2-20 wt.% of polyester derivative taken among the group: product of interaction of block-copolymer of ethylene and propylene oxides based on glycerol with toluylenediisocyanate, oxyethylated polyester resin of molecular mass 4000-6000 Da "Dissolvan 3264" sort, polyglycols "L5001M" and "R8327" sorts, block-copolymer of ethylene and propylene oxides, the balance up to 100 wt.%. Invention provides to protect oil field equipment from asphaltene-resin-paraffin deposits and corrosion and solves the problem of sewage treatment in the process of oil preparing. Invention can be used for destruction of water-oil emulsions, protection of oil field equipment from asphaltene-resin- -paraffin deposits and corrosion. EFFECT: enhanced effectiveness of composition, improved ecology. 2 cl, 2 tbl, 29 ex

Description

 The invention relates to the oil and oil industry and can be used to destroy persistent oil-water emulsions and protect oilfield equipment from asphalt-resin-paraffin deposits (AFS) and corrosion.

 A known composition for the destruction of oil-water emulsions and the protection of oilfield equipment from asphalt-resin-paraffin deposits and corrosion, including the product of the interaction of ethoxylated alkylphenol dioxane resin with phthalic anhydride, block copolymer of ethylene and propylene oxides and a solvent (patent RF 2152423, MKI C 2000 G 10 2000) . However, the known composition is not effective enough and does not allow to solve the problem of wastewater treatment.

 A known composition for the destruction of oil-water emulsions, the protection of oilfield equipment from asphalt-resin-paraffin deposits and corrosion, including the block copolymer of ethylene and propylene oxides, ethoxylated alkylphenol dioxane resin and aromatic solvent (patent 2096438, MKI C 10 G 33/04, 1997). However, this composition is not effective enough.

 Closest to the proposed invention is a composition for breaking oil-water emulsions, protecting oilfield equipment from asphaltene-tar-paraffin deposits and corrosion, including the ethoxylated condensation product of alkyl phenol with 4-12 carbon atoms in the alkyl chain and a high boiling point by-product of isoprene production from isobutylene and formaldehyde or 4 dimethyldioxane-1,3, a block copolymer of ethylene and propylene oxides, the product of the interaction of a polyether with toluene diisocyanate and a solvent (US Pat. nt of the Russian Federation 2126030, IPC C 10 G 33/04, 1999). The known composition is not effective enough and does not allow to solve the problem of wastewater treatment.

 The objective of the present invention is to provide a highly effective demulsifier for the destruction of oil-water emulsions having the properties of protecting oilfield equipment from asphalt-tar and paraffin deposits and corrosion and allowing to solve the problem of wastewater treatment during oil preparation.

The problem is solved in such a way that the composition for the destruction of oil-water emulsions and the protection of oilfield equipment from asphalt-tar-paraffin deposits and corrosion, including the ethoxylated condensation product of a phenol derivative and an oxygen-containing reagent, a block copolymer of ethylene and propylene oxides and a polyester derivative as an oxygenated ethylenated product contains the ethoxylated condensation product of monoalkylphenol with the number of carbon atoms mov C ₄ -C ₃₀ in the alkyl chain or its mixture with dialkylphenol with the number of carbon atoms C ₄ -C ₃₀ in the alkyl chain and the formaldehyde-containing product with a molar ratio of phenol derivative: formaldehyde-containing product 1: (0.8-1.2) in terms of formaldehyde, and as a derivative of the polyester, it contains compounds selected from the group comprising the product of the interaction of a block copolymer of ethylene oxide and propylene based on glycerol with toluene diisocyanate; hydroxyalkylated polyester resin with a molecular weight of 4000-6000 brand Dissolvan-3264; polyglycol L5001M, which is a non-ionic chemical base containing a surfactant; polyglycol brand R-8327 of the company Nalko Exxon in the following ratio of components, wt.%:
Specified Oxyethylated Condensation Product - 15-50
The polyester derivative selected from the group above is 2-20
Ethylene and Propylene Oxide Block Copolymer - Else
In an advantageous embodiment, the proposed composition further comprises a solvent in the following ratio of components, wt.%:
Specified Oxyethylated Condensation Product - 15-50
Block copolymer of ethylene and propylene oxides - 10-50
The polyester derivative selected from the group above is 2-20
Solvent - Other
As a product based on a block copolymer of ethylene and propylene oxides, the composition contains a block copolymer of ethylene and propylene oxides based on glycerol, and / or a block copolymer of ethylene and propylene oxides based on glycol, and / or a block copolymer of ethylene and propylene oxides based on ethylene diamine, or a mixture of these block copolymers.

 As a block copolymer of ethylene and propylene oxides based on glycerol, for example, block copolymers of ethylene and propylene oxides based on glycerol with the number of moles of ethylene oxide 1-50 and propylene oxide 50-130 and a molecular weight of 3000-10000 cu can be used. (US patent 3699051, MKI B 01 D 17/04, 1972; N. Schoenfeld "Surfactants based on ethylene oxide", Moscow, Chemistry, 1982, p.752).

2m=59-64;
2n=34-38
(патент РФ 2078095, МКИ С 10 G 33/04, 1997 г.).As a block copolymer of glycol-based ethylene and propylene oxides, for example, Laprol 4202-B-30, a polyether obtained by alcoholate polymerization of ethylene and propylene oxides with ethylene glycol, which is the active base of Reapon-4B according to TU 6-5554-91, can be used. or Laprol 5002-2B-30 according to TU 39-0575670-OP-159-93 - polyether obtained by alcoholate polymerization of ethylene and propylene oxides with ethylene glycol, or block copolymers of ethylene and propylene oxides of the general formula
HO (CH ₂ CH ₂ O) _n (CH ₃ CHCH ₂ 0) _m R (OCH ₃ CHCH ₂ ) _m (OCH ₂ CH ₂ ) _n OH,

2m = 59-64;
2n = 34-38
(RF patent 2078095, MKI C 10 G 33/04, 1997).

As a block copolymer of ethylene and propylene oxides based on ethylene diamine can be used, for example:
block copolymer of ethylene and propylene oxides based on ethylene diamine with a molecular weight of about 7000 cu - Proxamine 385-50 according to TU 6-14-19-675-86,
or ethylene diamine-based block copolymers of ethylene and propylene oxides obtained by conventionally sequentially adding propylene oxide, ethylene oxide and propylene oxide to ethylene diamine with a molecular weight of 6000-15000 o. e. (D.N. Levchenko et al. "Emulsions of oil with water and methods for their destruction", Moscow, Chemistry, 1967, p.145),
or a block copolymer of ethylene and propylene oxides based on ethylene diamine with a molecular weight of about 5000 cu - Diproxamine - 157 according to TU 6-14-614-76,
or ethylene diamine-based block copolymers of ethylene and propylene oxides obtained by known addition of propylene oxide, ethylene oxide to ethylene diamine with a molecular weight of 7100-15000 cu (D.N. Levchenko et al. "Emulsions of oil with water and methods for their destruction", Moscow, Chemistry, 1967, p.145).

 As a derivative of the polyester, the composition uses compounds selected from the group including: the product of the interaction of a simple polyester, which is a block copolymer of ethylene and propylene oxides based on glycerol, with toluene diisocyanate (TDI) in a molar ratio of (n + 1) to (n + 3 ), where n is the number of moles of TDI (RF patent 2089593, MKI C 10 G 33/04, 1997), or hydroxyalkylated polyester resin with a molecular weight of 4000-6000 - Dissolvan 3264 (passport of Xöxst), or polyglycol L5001M - nonionic chemical surfactant base substance or polyglycol R 8327 (from Nalco Exxon passport).

As an oxyethylated condensation product of a phenol derivative and an oxygen-containing reagent, the proposed composition contains an oxyethylated condensation product of monoalkylphenol with the number of carbon atoms C ₄ -C ₃₀ in the alkyl chain, or its mixture with dialkylphenol with the number of carbon atoms C ₄ -C ₃₀ in the alkyl chain (AF mixture + DAF) and formaldehyde-containing product in a molar ratio of 1: (0.8-1.2) in terms of formaldehyde.

 A condensation product of a phenol derivative and a formaldehyde-containing product is oxyethylated to a content of 30-70 wt.% Of ethylene groups and is obtained by known hydroxyethylation of the above condensation product by heating in the presence of an alkaline catalyst (N. Schoenfeld "Ethylene Oxide Surfactants", Moscow, Chemistry, 1982, 752p.).

 The condensation product of a phenol derivative and a formaldehyde-containing product is obtained by a known method of phenol-formaldehyde condensation by heating in the presence of an acid catalyst (Knop A., Sheyb B. "Phenolic resins and materials based on them." M., Chemistry, 1983, p. 39).

 An example of obtaining an ethoxylated condensation product.

220 g (1 mol) of isononylphenol 81 ml of 37% technical formalin (1 mol of formaldehyde) 1.25 g (0.5% of the reaction mass) of benzenesulfonic acid are placed in the reactor. Then pour 400 g of Nephras A _p 120/200 and heat for 3-4 hours at boiling point.

After this time, the temperature is gradually raised to 150 ^o With and at the same time are distillation of water. At the end of the distillation of water, 10 ml of a saturated alkali solution are added to the reaction mass.

 Oxyethylation is carried out in an autoclave by the generally accepted method until the content of hydroxyethyl groups in the obtained oxyethylation product is 50 wt.%.

As monoalkylphenols with the number of carbon atoms C ₄ -C ₃₀ in the alkyl chain, for example, isooctylphenol according to TU 6-14-579-81 E, or isononylphenol according to TU 38.602-09-20-91 can be used.

 As dialkylphenols, for example, 2,6-di-tert-butylphenols according to TU 38.103378-86 can be used.

 As a formaldehyde-containing product (FP), an aqueous or aqueous methanol solution of formaldehyde or paraform is used. An aqueous formaldehyde solution - formalin - is used in accordance with GOST 1625-89 "technical formalin", paraform - according to TU 6-09-141-03-83, a water-methanol formaldehyde solution - according to TU 38.602-09-43-92.

As a solvent, for example, aliphatic alcohols, or mixtures thereof with water, or aromatic hydrocarbons, or C ₂ -C ₄ monoalkyl ethers of ethylene glycols, or mixtures of these substances can be used.

 As aliphatic alcohols use, for example, methanol according to GOST 2222-78, or isopropanol according to GOST 9805-84.

As aromatic hydrocarbons, for example, Nefras A _p 120/200 is used - a mixture of aromatic hydrocarbons according to TU 38-101-809-90, or toluene according to GOST 5789-78, or ethylbenzene fraction (EBP) according to TU 38.30225-81, or butylbenzene fraction (BBF) according to TU 38.10297-76, or xylene fraction according to GOST 9410-78 (according to xylene).

The following are used as C ₂ -C ₄ monoalkyl ethers of ethylene and diethylene glycols:
ethylene glycol monoethyl ether (ethyl cellosolve) - (MEEEG) according to GOST8113-88, or diethylene glycol monoethyl ether (ethylcarbitol) - (MEEDEG) according to TU 6-01-5757583-6-89, or ethylene glycol MBEB mono-butyl ether (butylgel) TU 6-01-646-84, or diethylene glycol monobutyl ether (butylcarbitol) - (MBEDEG) - according to TU 6-05-10-5-86.

 An analysis of the technical solutions selected during the search showed that there is no object in science and technology that is similar in the claimed combination of features that has a high demulsifying effect and protection of oilfield equipment from asphalt-resin-paraffin deposits and corrosion, which allows solving the problem of wastewater treatment, which indicates the conformity of the proposed technical solutions to the criterion of "novelty" and "inventive step".

 To prove the compliance of the present invention with the criterion of "industrial applicability" we give examples of specific performance.

 Example 1 (proposed).

To 45 g of the ethoxylated condensation product of alkyl phenol with the number of carbon atoms C ₃₀ and formaldehyde in a molar ratio of 1: 0.8 (PFSOE), 20 g of Laprol 5002-2B-30 are added, then 15 g of Diproxamine-157 are mixed, and then Dissolvan 3264 is added -1 in the amount of 20 g. The mixture is thoroughly mixed at 35-40 ^o C to obtain a homogeneous product.

 Examples 2-6 are performed analogously to example 1, changing the qualitative and quantitative ratio of the components.

Example 7. To 40 g of the hydroxyethylated condensation product of alkyl phenol with the number of carbon atoms C ₁₀ and formalin in a 1: 1 molar ratio (PFSOE), 40 g of Laprol 4202-B-30 are added, then 10 g of the product of the interaction of the polyether with toluene diisocyanate is stirred at 35 -40 ^o C, after which add 10 g of methanol. The mixture is thoroughly mixed until a homogeneous product.

 Examples 8 to 28 are performed analogously to example 7, changing the qualitative and quantitative ratio of the components.

 Example 29 (prototype).

 The composition of the proposed demulsifier is shown in table 1.

The obtained product samples are brown liquids with a density of d = 0.920-1.050 g / cm ³ , pour point from 5 to -60 ^o С, viscosity η not more than 60 mm ² / s at 20 ^o С (for samples 7-28) .

 The proposed composition is tested for demulsifying effectiveness in relation to artificial and natural water-oil emulsions, the physico-chemical composition of which is given below.

Natural emulsion:
The water content of the emulsion,% - 50-60
The density of oil at 20 ^o C, g / cm ³ - 0,870-0,885
Kinematic viscosity at 20 ^o С, mm ² / s - 28.5
Content, wt.%:
Sulfur - 1.5-2.2
Asphaltenes - 3.00-3.50
Silicate resins - 5.20-6.15
Paraffins - 5.83-7.50
An artificial emulsion of 30% water cut is prepared using anhydrous coal oil and a reservoir water model.

The density of coal oil is about 0.850 g / cm ³ . The mineralization of produced water used for the preparation of an artificial oil-water emulsion is 200 g / l, density d = 1.122 g / cm ³ .

The test demulsifier is dosed 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 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 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 demulsifying activity and the degree of wastewater treatment are presented in table 1.

The effectiveness of preventing asphaltene-tar-paraffin deposits (AFS) is evaluated by the following indicators:
1. For washing the film of oil.

 2. By the size of the dispersion particles.

 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 s, good in 60 s and satisfactory in 180 s.

 Dispersion of paraffin and surface washing.

These two methods are combined in one procedure and are carried out in a conical flask, in which 50 cm ^{3 of} produced water is placed, the test reagent is dosed. An ASPO 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 С), and then cooled by stirring. After cooling to 20-25 ^o With measure the particle size of the dispersion of paraffin (σ) and the area of the working surface of the flask, not covered with (coated) with paraffin deposits (s).

 According to the methodology, the result is considered to be excellent with a dispersion value of 1-2 mm, satisfactory - with a dispersion value of 2-5 mm, unsatisfactory - with a dispersion value of more than 5 mm. When evaluating the method of washing ARPD from a surface, the result is considered to be excellent if the proportion of surface washing from ARPD is 90-100%, good - 80-90% and bad - less than 50%.

Corrosion protective properties are 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 of 100-200 mg / l. The tests are carried out for 6 hours at a laboratory installation 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 "Metal corrosion inhibitors in oil-water environments."

 The test results are presented in table 2.

 The data presented in table 2 show that the proposed composition effectively destroys oil-water emulsions, protects oilfield equipment from asphalt-resin-paraffin deposits and corrosion and allows solving the problem of wastewater treatment during oil preparation.

Claims (1)

1. Composition for breaking oil-water emulsions and protecting oilfield equipment from asphalt-tar-paraffin deposits and corrosion, including an ethoxylated condensation product of a phenol derivative and an oxygen-containing reagent, a block copolymer of ethylene and propylene oxides and a polyester derivative, characterized in that as an oxygenated phenol and condensate, the product contains an oxygenated phenol and condensate it contains the ethoxylated condensation product of monoalkylphenol with the number of carbon atoms C ₄ -C ₃₀ in alkyl chain or its mixture with a dialkylphenol with the number of carbon atoms C ₄ -C ₃₀ in the alkyl chain with a formaldehyde-containing product with a molar ratio of phenol derivative of formaldehyde-containing product, respectively 1: (0.8-1.2) in terms of formaldehyde, and as a derivative the polyester it contains compounds selected from the group comprising the product of the interaction of a block copolymer of ethylene oxides and propylene based on glycerol with toluene diisocyanate; hydroxyalkylated polyester resin with a molecular weight of 4000-6000 brand Dissolvan-3264; polyglycol brand L5001M, which is a non-ionic chemical base containing a surfactant, polyglycol brand R-8327 company Nalko Exxon, in the following ratio, wt. %:
Specified Oxyethylated Condensation Product - 15-50
The polyester derivative selected from the group above is 2-20
Ethylene and Propylene Oxide Block Copolymer - Else
2. The composition according to p. 1, characterized in that it further comprises a solvent in the following ratio of components, wt. %:
Specified Oxyethylated Condensation Product - 15-50
Block copolymer of ethylene and propylene oxides - 10-50
The polyester derivative selected from the group above is 2-20
Solvent - Other

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