RU2541680C1 - Inhibitor of asphaltresinparaffin sediments - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: inhibitor of asphaltresinparaffin sediments, obtained with the application of an alkylacrylate copolymer and aromatic solvent, obtained by the interaction of the copolymer in toluene, which has the mol. weight 6000-8000, a mixture of alkylacrylates, which contain, wt %: alkylacrylate C₁₆ - 65, alkylacrylate C₁₈ - 25, alkylacrylate C₂₀ - 10, with dodecylamine acrylate, and dodecylamine sulphate with heating with mixing to 80°C, introduction of a 8.8-16.6% solution of an azobisisobutyronitrile in toluene initiator, exposure for 5 hours at 90-100°C with the following component ratio, wt %: copolymer of the said mixture of alkylacrylates with dodecylamine acrylate 45-57, dodecylamine sulphate 2-3, toluene - the remaining part.

EFFECT: increased efficiency of preventing the formation of asphaltresinparaffin sediments in paraffinic, highly-paraffinic oils and gas condensates.

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Description

The invention relates to compositions for preventing the loss of oil from asphalt-resin-paraffin deposits in oilfield equipment, in the bottomhole zone of oil wells, as well as oil pipelines. It can be used in the oil and other industries related to oil production, transportation and storage.

Currently, a wide range of substances from various classes of organic compounds, as well as compositions based on them, for example, additives SONPAR, SNPH 69, are used to prevent the deposition of asphalt-tar-paraffin deposits (AFS) from oil.

Known inhibitors include various synthetic polymers, synthetic surfactants (or mixtures thereof) or natural surfactants from waste from various industries [Agaev SG, Grebnev AN, Zemlyansky E.O. Inhibitors of paraffin deposits of binary action // Journal of Applied Chemistry. - 2006. - T.79. - No. 8. - p. 1373-1378; Prozorova I.V., Yudina N.V., Nebogina N.A. et al. Selection of inhibitory and depressant additives for oil of the Verkhnechonskoye field // Oil industry. - 2010. - No. 6. - S.68-70].

Currently used paraffin inhibitors are not effective enough, they have complex production technology, are scarce and expensive, and for some types of oils (highly paraffinic and highly resinous) are absent. In this regard, the urgent task of developing new types of paraffin inhibitors for highly solidifying and highly viscous oils, gas condensates and expanding raw material resources for this purpose.

Known inhibitor of asphalt-resin-paraffin deposits, which is a product of sequential addition of 1-3 parts by weight ethylene oxide and 3-9 parts by weight propylene oxide to 1 parts by weight alkyl phenols [Auth. testimonial. USSR No. 1118659, C09K 3/00, 1984].

The disadvantage of this inhibitor of asphalt-resin-paraffin deposits is the selectivity of its action, which consists in the fact that it exhibits inhibitory effectiveness only for certain types of oils. In addition, it is a highly viscous reagent at 20 ° C. Its use in winter without heating is impossible, since it has a pour point of + 5 + 8 ° C.

A composition for protection of oil field equipment of asphaltene sediments containing heavy petroleum solvent and an organic additive, as hydrocarbons which it contains C ₁₇ -C ₂₀ fatty amines and C ₁₇ -C _20, with the following component ratio, wt. %: hydrocarbons C ₁₇ -C ₂₀ - 2-5; fatty amines C ₁₇ -C ₂₀ - 10-13; heavy oil solvent - the rest (SU 1455713, class ЕВВ 37/06, publ. 10.04.2000). The disadvantage of this composition is its low efficiency.

A known composition for inhibiting paraffin deposition based on ethylene acrylonitrile copolymer or ternary copolymer based on ethylene, acrylonitrile and monomer selected from the group consisting of alkyl methacrylate, vinyl acetate, acrylic acid or methacrylic acid in an amount of from 0.1 to 10 wt.% Of the total composition of the copolymer ( US 4926582, C10L 1/10, 05.22.1990).

Inhibitors based on esters of acrylic and methacrylic acids are widely known, which in the USSR were developed under the trade names DN-1 and DN-MA [Skovorodnikov Yu.A. Improving the effectiveness of depressant additives for paraffinic oils // Oil industry. - 1978. - No. 6. - S. 49-53]. These additives are not currently manufactured. Their close analogue in structure and application is the inhibitor of the Flexoil WM 1470 brand of the Servo-Champion company (England), which has found widespread use abroad.

The closest in technical essence and in the achieved effect to the subject of the present invention is a foreign inhibitor of the brand Flexoil WM 1470 based on copolymers of alkyl acrylates and alkyl methacrylates (T. V. Ivanova, E. V. Beshagina. Study of the effect of additives on the properties of oils. - Electronic Scientific Journal “Oil and Gas Business” No. 2, 2013, p. 121-122). The disadvantages of this inhibitor are its selectivity and low inhibitory effectiveness.

The technical result of the present invention is to increase the effectiveness of preventing the formation of paraffin, high-paraffin oils and gas condensates with various contents of tar-asphaltene components (SAC) on the walls of oilfield equipment.

To achieve the technical result, an inhibitor of asphalt-resin-paraffin deposits is proposed, obtained using an alkyl acrylate copolymer and an aromatic solvent, characterized in that it is obtained by reacting in toluene a copolymer having a mol. the mass of 6000-8000, a mixture of alkyl acrylates containing, mass. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate and dodecylamine sulfate when heated with stirring to 80 ° C, the introduction of 8.8-16.6% solution of azobisisobutyronitrile initiator in toluene, exposure for 5 hours at 90-100 ° C in the following ratio of components, mass. %:

a copolymer of said mixture of alkyl acrylates with dodecylamine acrylate 45-47; dodecylamine sulfate 2-3; toluene rest

The mass average molecular weight (Mw) of the synthesized copolymers of these and dodecylamine acrylate was determined by gel permeation chromatography and amounted to 6000-8000 amu

The proposed inhibitor is prepared as follows.

Example 1

In the reactor load 510 g of an aromatic solvent, mainly toluene, 47 g of a copolymer of a mixture of alkyl acrylates in the composition in mass. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate and 2.0 g of dodecylamine sulfate. The reaction mixture was purged with nitrogen, heated to 80 ° C with stirring, and an 8.8-16.6% initiator solution in toluene was introduced containing 0.5-1.0 g of azobisisobutyronitrile and 6.0 g of toluene. Then the mixture is kept for 5 hours at a temperature of 90-100 ° C and cooled.

Example 2

In the reactor load 520 g of an aromatic solvent, mainly toluene, 45 g of a copolymer of a mixture of alkyl acrylates in the composition in mass. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate, 3.0 g of dodecylamine sulfate. The reaction mixture was purged with nitrogen, heated to 80 ° C with stirring, and an 8.8-16.6% initiator solution in toluene was introduced containing 0.5-1.0 g of azobisisobutyronitrile and 6.0 g of toluene. Then the mixture is kept for 5 hours at a temperature of 90-100 ° C and cooled.

Example 3

In the reactor load 530 g of an aromatic solvent, mainly toluene, 45 g of a copolymer of a mixture of alkyl acrylates in the composition in mass. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate and 2.0 g of dodecylamine sulfate. The reaction mixture was purged with nitrogen, heated to 80 ° C with stirring, and an 8.8-16.6% initiator solution in toluene was introduced containing 0.5-1.0 g of azobisisobutyronitrile and 6.0 g of toluene. Then the mixture is kept for 5 hours at a temperature of 90-100 ° C and cooled.

Example 4

In the reactor load of 50.0 g of an aromatic solvent, mainly toluene, 47 g of a copolymer of a mixture of alkyl acrylates in the composition in mass. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate and 3.0 g of dodecylamine sulfate. The reaction mixture was purged with nitrogen, heated to 80 ° C with stirring, and an 8.8-16.6% initiator solution in toluene was introduced containing 0.5-1.0 g of azobisisobutyronitrile and 6.0 g of toluene. Then the mixture is kept for 5 hours at a temperature of 90-100 ° C and cooled.

A quantitative assessment of the effectiveness of the proposed inhibitor was carried out on the installation using the well-known method of the "cold rod" [S. G. Agaev, Z.N. Berezina, A.A. Khalin. Oilfield business, 1996, No. 5, p. 16]. The installation consists of a metal rod cooled to a predetermined temperature (12 ° C). Distilled water in a thermostat was used as a heat carrier. A quantitative assessment was carried out for 1 h using a sample of oil in an amount of 40 g. The amount of sediment formed on the rod was determined gravimetrically. The result was determined as the arithmetic mean of three parallel experiments.

The degree of inhibition of paraffin was determined by the formula: C _and = (B ₀ -Β ₁ ) / B ₀ , where C _and is the degree of inhibition of paraffin,%; In ₀ - mass of sediment on the "cold rod" in the absence of inhibitor, g;

Β ₁ - the mass of sediment on the "cold rod" in the presence of an inhibitor, g

For comparison, in addition to the inhibitor proposed in the present invention, defined as an inhibitory additive K-210, a prototype was used - an imported inhibitory additive - Flexoil WM 1470 and for comparison, the well-known domestic additives SONAR and SNPH.

The studies were carried out using paraffinic, high-paraffin oils and gas condensates with different tar-asphaltene components (NAO).

Data obtained results are given in table. one.

Data analysis table. 1 shows that the effectiveness of the inhibitor proposed in the present invention, defined as an inhibitory additive K-210, in respect of a different deposit is significantly higher than that of the prototype - an imported inhibitor of the brand Flexoil WM 1470 and a number of domestic additives SONAR, SNPH, which confirms the achievement of the claimed technical result .

Claims (1)

An inhibitor of asphalt-resin-paraffin deposits obtained using an alkyl acrylate copolymer and an aromatic solvent, characterized in that it is obtained by reacting in toluene a copolymer having a mol. the mass of 6000-8000, a mixture of alkyl acrylates containing, by weight. %: alkyl acrylate C ₁₆ - 65, alkyl acrylate C ₁₈ - 25, alkyl acrylate C ₂₀ - 10, with dodecylamine acrylate and dodecylamine sulfate when heated with stirring to 80 ° C, the introduction of 8.8-16.6% solution of azobisisobutyronitrile initiator in toluene , exposure for 5 hours at 90-100 ° C in the following ratio of components, wt. %:
copolymer of said mixture of alkyl acrylates with dodecylamine acrylate 45-47 dodecylamine sulfate 2-3 toluene rest