RU2784664C1 - Inhibitory additive for paraffin and high-paraffin oils - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to inhibitory additives. An inhibitory additive is described to prevent the deposition of asphalt-resin-paraffin deposits from paraffin and high-paraffin oils, containing a copolymer of alkyl acrylates C₁₆-C₂₀ and dodecylamine acrylate, dodecylamine sulfate, and a solvent, a product of plasma chemical oxidation of benzene at the following component ratio, wt. %: a copolymer of alkyl acrylates C₁₆-C₂₀ and dodecylamine acrylate, dodecylamine sulfate 45-49, a product of plasma chemical oxidation of benzene 2-6, solvent toluene the rest.

EFFECT: increase in the inhibition efficiency.

1 cl, 3 tbl, 3 ex

Description

The invention relates to compositions for preventing the precipitation of asphalt, resin and paraffin deposits from oil on oilfield equipment, in the bottomhole zone of oil wells, and also on oil pipelines. It can be used in the oil and other industries associated with the extraction, transportation and storage of oil.

At present, in Russia and abroad, the share of problematic oil systems with a high content of paraffinic hydrocarbons (PU) and tar-asphalten components (RAC) in the total volume of oil-containing raw materials produced is increasing. During the extraction and transportation of paraffinic and highly paraffinic oil systems, asphalt, resin and paraffin deposits (ARPD) are formed on the inner surface of oilfield equipment, which leads to a decrease in well productivity, a decrease in the cross section of oil pipelines, in some cases to a complete cessation of pumping.

Of the numerous ways to combat sedimentation, the most effective is the introduction of chemical reagents that prevent or inhibit the formation of paraffin deposits in oil dispersed systems (ODS).

Currently, to prevent the precipitation of asphalt, resin and paraffin deposits (ARPD) from oil, a wide range of substances from various classes of organic compounds, as well as compositions based on them, are used, for example, additives SONPAR, SNPKh 69. Known inhibitors include various synthetic polymers, synthetic surfactants ( or mixtures thereof) or natural surfactants from waste products of various industries [Agaev S.G., Grebnev A.N., Zemlyansky E.O. Inhibitors of paraffin deposits of binary action // Journal of Applied Chemistry. 2006. T. 79. 8. p. 1373 1378; Prozorova I.V., Yudina N.V., Nebogina N.A. Selection of an inhibitory and depressant additive for oil of the Verkhnechonskoye field // Neftyanoe khozyaystvo. 2010. 6. S. 6870].

Currently used inhibitors of paraffin deposition are not effective enough, they are distinguished by a complex production technology, they are scarce and expensive, and for some types of oils (highly paraffinic and highly resinous) they are not available.

A characteristic feature of new developments in the field of inhibitory additives for oils is the compositional nature of their composition (two or more components of the active substance) and the multifunctionality of their action.

Known additives of complex action for the inhibition of oils [RF Patents No. 2467054, No. 2224778]. However, they are not very effective for oils with a content of PU and SAA above 10 and 15% wt. respectively.

Closest to the present invention is an inhibitor of asphalt, resin and paraffin deposits (additive K-210) [Inhibitor of asphalt, resin and paraffin deposits / Dementiev A.V., Medzhibovsky A.S., Moykin A.A., Kazantsev O.A., Sivokhin A.P., Kamorin D.M., Prozorova I.V., Yudina N.V., Volkova G.I., Litvinets I.V.; - RF patent No. 2541680, application No. 2014110887/03; dec. 03/21/2014; publ. 20.02.2015, Bull. No. 5], based on a copolymer of alkyl acrylates with dodecylamine acrylate, selected as a prototype and having the following composition, wt. %: copolymer of a mixture of C ₁₆ -C ₂₀ alkyl acrylates with acrylate

dodecylamine 45.0-47.0 dodecylamine sulfate 2.0-3.0 toluene rest

However, it is not effective enough for oils with a mass fraction of paraffinic hydrocarbons of more than 10% wt., resinous-asphalten components (RAC) of more than 20% wt. and for pumping oil and oil products at temperatures below 20°C.

The objective of the invention is to create an effective additive to prevent the process of formation of paraffin deposits on the walls of oilfield equipment in paraffinic, highly paraffinic oils with a high content of SAA.

The technical result is an increase in the efficiency of inhibition for oil systems with a high content of paraffin hydrocarbons and tar-asphaltene components.

According to the invention, the composition of the inhibitory additive, as well as in the prototype, contains a copolymer of C ₁₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate, dodecylamine sulfate, a solvent and, additionally, a product of plasma-chemical oxidation of benzene in the following ratios, wt. %:

1. copolymer of C ₁₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate, dodecylamine sulfate, 45.0-49.0 2. product of plasma-chemical oxidation of benzene 3.0-6.0; 3. toluene (solvent) rest.

The product of plasma-chemical oxidation of benzene was obtained in a flow reactor under the action of a barrier discharge plasma at an amplitude of high-voltage voltage pulses of 14.6 kV, a repetition frequency of 400 Hz, and an active power of the discharge plasma of 3 W; at a reactor wall temperature of 20 or 40°C, atmospheric pressure and a contact time of the reaction mixture of 0.22 minutes; direct oxidation of benzene with the formation of the corresponding phenols; in an excess amount of the original hydrocarbon [Kudryashov, S.V. Oxidation of hydrocarbons in a reactor with a barrier discharge / A.Yu. Ryabov, E.E. Sirotkina, G.S. Shchegolev // High Energy Chemistry. - 2000. - T. 34. - No. 2. - S. 145-148.].

The main product of the plasma-chemical oxidation of benzene is phenol (81% wt.). Dihydric phenols (2.4% wt., predominantly pyrocatechol) were found in small amounts. The content of by-products of the reaction is 16.6% wt. [Kudryashov, S.V. Transformations of Hydrocarbons of Different Classes in a Barrier Discharge: Cand. dr. chem. Sciences: 02.00.13 / Kudryashov Sergey Vladimirovich. - Tomsk, 2016. - 248 p.].

The quantitative assessment of the process of sedimentation was determined on an installation developed on the basis of the well-known method of "cold rod" [Agaev S.G., Berezina Z.N., Khalin A.A. // Oilfield business. 1996. No. 5. S. 16]. The degree of inhibition of the sedimentation process was calculated by the formula:

where I is the degree of inhibition, %; m _in is the weight of the sediment of the original sample, g; m _arr is the mass of the sample sediment in the presence of the additive, g.

The inhibitory ability of additives in the amount of 0.03-0.05% wt. evaluated for paraffinic, highly paraffinic oils with a high content of tar-asphaltene components. The results are shown in table. one.

Example 1

Oil from the Urmanskoye field: the content of paraffinic hydrocarbons (PU) - 13.1% wt., tar-asphalten components (SAK) - 18.6% wt., pour point (T _zast. )+4.0°C.

Precipitation conditions: oil temperature +20°C, deposit-forming surface temperature: 0°C

The composition of the proposed additive:

1. copolymer of C ₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate,

dodecylamine sulfate 46.0; 2. product of plasma-chemical oxidation of benzene 4.0;

3. toluene (solvent) the rest.

According to the data obtained, it can be seen that when the product of the plasma-chemical oxidation of benzene is added to the polymer, the degree of inhibition reaches 81.2%, which is 20% higher than when using the polymer alone.

Example 2

Oil of the Ignyaninsky field: the content of PU is 5% wt., SAK is 15.8% wt., T _const. +2.3°С.

Oil temperature: +20°С. Deposit-forming surface temperature: +10°C The composition of the proposed additive:

1. copolymer of C ₁₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate, dodecylamine sulfate, 45.0; 2. product of plasma-chemical oxidation of benzene 2.0; 3. toluene (solvent) rest.

Analyzing the obtained practical results, it is shown that the use of a composition containing a polymer and a plasma-chemical oxidation product as a surfactant further reduces the amount of ARPD by 1.5 g, which gives an increase in inhibitory ability by 9.1%.

Example 3

Oil Festival field: the content of PU - 20.0% wt., SAK - 28.0% wt., T _const. +18.0°С.

The composition of the proposed additive:

1. copolymer of C ₁₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate, dodecylamine sulfate 49.0;

2. product of plasma-chemical oxidation of benzene 6.0; 3. toluene (solvent) rest.

Oil temperature: +30°С. Precipitation surface temperature: +20°C

Thus, it has been shown that the addition of the product of plasma-chemical oxidation of benzene as a cosurfactant significantly (by 10-20%) increases the inhibitory ability of the additive.

Claims (2)

An inhibitory additive to prevent precipitation of asphalt-resin-paraffin deposits from paraffinic and highly paraffinic oils, containing a copolymer of C ₁₆ -C ₂₀ alkyl acrylates and dodecylamine acrylate, dodecylamine sulfate, and a solvent, characterized in that it additionally contains the product of plasma-chemical oxidation of benzene in the following ratio, wt. %: Copolymer of C ₁₆ -C ₂₀ alkyl acrylates and acrylate dodecylamine, dodecylamine sulfate 45-49 Product of plasma-chemical oxidation of benzene 2-6 Solvent - toluene rest