EA005888B1 - Reagent for removing asphaltenosmoloparaffin deposits - Google Patents

Abstract

The invention relates to compositions for removing and preventing asphaltenosmolic and paraffin deposits in oil-extracting equipment and can be used in oil field facilities and main pipelines. Their proposed the reagent for removing asphaltenosmoloparaffin deposits comprising aliphatic, aromatic hydrocarbons, ionogenic surfactant and solvent which contains waste synthetic oil as aliphatic hydrocarbons, prenaphthalene fraction of heavy pyrolized resin, and C6-8 hydrocarbon fraction of pyrocondensate and ionogenic surfactant as a solvent with the following component ratio, wt%: Waste synthetic oil - 15-20, Prenaphthalene fraction of heavy pyrolized resin - 5-10, Ionogenic surfactant - 3-5, C6-8 hydrocarbon fraction - remaining. The reagent comprises wastes and by-products of the main process, has high dissolving capacity of the asphaltenosmoloparaffin deposits and provides oil-extracting equipment an anti-corrosion protection.

Description

The invention relates to compositions for the removal and prevention of asphaltoresin and paraffin deposits (ARPD) in oil field equipment and can be used in oil fields and main pipelines. Known composition for the removal of paraffin and asphalt-resinous deposits, containing 97.3-98.5 wt.% Heavy pyrolysis resin and 1.5-2.7 wt.% Non-inogenic surfactants [Av.st. USSR No. 1562432, E 21B 37/00, 1987]. The disadvantage of this structure is low dissolving ability.

Known reagent to prevent paraffin deposits in oil-field equipment [A. USSR No. 1436480, C 09K 3/00, 1986], which contains the following components: as the product of the interaction of fatty acids and amines use the product of the interaction of crude tall oil with ethanolamine or ethoxylated ethylenediamine with the number of hydroxyethyl groups from 1 to 10 (45-50 wt. .%); ethanolamine or ethoxylated ethylenediamine with the number of hydroxyethyl groups from 1 to 10 (10-15 wt.%); polyethylene glycol monoalkylphenyl ether (OP-10) (10-15 wt.%); VAT residue at the stage of ethylene glycol rectification (10-20 wt.%); kerosene (10-15 wt.%).

The reagent has good wetting ability, however, it is multi-component and expensive.

In the application [a 2000 0063, Αζ, E 21B 37/06, Official Bulletin Industrial Property No. 1, 2002.] describes a reagent for preventing paraffin-resin deposits in oil field equipment, containing the product of the interaction of raw vegetable oil with amino alcohol, vat residue from glycol rectification, OP-10, amino alcohol and kerosene, where the product of the interaction of raw vegetable oil with amino alcohol contains the product of the interaction of gossypol resin with diethanolamine, and also contains polyethylene acid and raw rubber st. For the preparation of the reagent using scarce raw materials, in addition, the reagent has a high pour point.

The closest analogue to the claimed invention is a composition for the removal of asphaltoresin-paraffin deposits [US Pat. VI No. 2183650, C 09K 3/00, E 21B 37/06, VI BIPM No. 17, 20.06.2002], containing aliphatic and aromatic hydrocarbons, polar non-electrolyte, non-inogenic and cationic surfactant, absorbent solvent A-2-heavy with the following the ratio of ingredients, vol.%:

Aliphatic hydrocarbons 50-85

Polar Neelectrolyte2-5

Nonionic surfactant 1-2

Cationic PAV1-2

A-2-heavy7-22

Aromatic Hydrocarbons Else

The disadvantage of the known composition of its complexity, high cost and lack of efficiency of dissolution of asphaltenes.

The objective of the invention is to increase the effectiveness of the reagent by improving the dispersion of sediment, reducing reagent consumption and expanding the range of reagents to remove and prevent ARPD based on affordable and cheap raw materials.

The problem was solved with a reagent for removing asphaltenesmoloparaffin deposits containing waste synthetic oil, donaphthalene fraction of heavy pyrolysis resin, C6-C8 hydrocarbon fraction of pyrocondensate and ionic surfactant in the following ratio of components, wt.%:

Spent synthetic oil15-25

Donaphthalene fraction of heavy pyrolysis resin 5-10

Ionogenic PAV3-5

C6-C8 hydrocarbon fraction of pyrocondensate Else

The essence of the invention is that the polar and non-polar groups of the spent synthetic oil and the donaphthalene fraction of the heavy pyrolysis resin in the complex enhance the effect of the polar groups of the reagent in relation to the polar ARPD groups, activate the polar groups of ARPD molecules, increasing their dispersion, and the hydrocarbon fraction of the pyrocondensate increases the solubility macromolecules asphaltenes and resinous substances. The molecules of the reagent adsorb faster on the metal surface than asphaltene-resin-paraffin substances, and thus prevent the latter from falling out.

Reagent with high efficiency of action contains waste and by-products of the main production.

The C6-C8 hydrocarbon fraction of the pyrocondensate is a by-product of the pyrolysis of straight-run gasoline of the EP-300 unit and is characterized by the following physicochemical properties:

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Appearance liquid light yellow

Fractional composition of the beginning of the boil, ° С80 end of the boil, ° С165

Mass fraction of sulfurized substances,% 96

Mass fraction of sulfur,% 0.03 water is missing

The donaphthalene fraction of the heavy pyrolysis resin (TU 057575-29-77-2000) has the following characteristics:

Appearance dark blue liquid

Density, 20 ° С, g / cm ³ 0,886

Fractional composition:

start of boiling, ° С120 end of boiling, ° С240

Mass fraction of sulfurized substances,% 98

Mass fraction,% sulfur 0.05 water0.1

Spent synthetic compressor oil is block copolymers of ethylene and propylene oxides, as well as olefin oligomers, and is characterized by the following physicochemical properties:

Appearance viscous liquid from yellow to brown

Density, 20 ° С, g / cm ³ 1,045

Ethylene oligomers,% vol. 25

Molecular weight of oligomers 200-300

Sodium naphthenate and alkylaryl sulfonate (sulfanol) in the ratio 1: 1 are used as the ionic surfactant.

The reagent for removing asphaltene-resin-paraffin deposits according to the invention is a moving liquid of bright blue color with a density at 20 ° С 0.912-0.956 g / cm ³ , freezing point -65.8 ° С.

The proposed reagent is designed to remove ARPD both directly from the oil wells themselves and from the surrounding formation zones.

To prepare the reagent, 60 g of spent synthetic compressor oil, 30 g of donaphthalene fraction of heavy pyrolysis resin, 9 g of surfactant (4.5 g of sodium naphthenate, 4.5 g of sulfanol) and 201 g of C6-C8 hydrocarbon fraction of pyrocondensate are poured into a 500 ml metal beaker. . The mixture to obtain a homogeneous liquid is stirred using an electric stirrer for 7-15 minutes at a speed of 2700 rpm.

The sample of paraffin taken from the pipeline and having the following composition, wt.%:

Paraffins 78.7 Asphaltenes 12.3 Resins 5.9 Residual oil 3.1

in the form of a tablet weighing 5 g is fixed to the mixer, immersed in a reagent with a volume of 100 ml and with stirring at a given temperature and time exposed to the reagent. After the expiration of the experiment, the tablet is removed from the reagent, dried and weighed. The removal efficiency of paraffin is determined by the degree of solubility (weight reduction) of the samples. The dependence of the solubility of ARPD samples on time at a given temperature in comparison with known reagents is presented in the table.

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The compositions Solubility sample of paraffin Temperature, ⁰ ( ten one 3 6 one Reagent on image. 42 88 100 86 Known reagent

at temperature and time, May. % C / time I 20 50 3 6 one 3 6 100 - 100 - - 37 86 100

As can be seen from the table at 10 ° C for 6 hours, the reagent completely dissolves the ARPD, at 20 ° C - for 3 h, and at 50 ° C within a few minutes the sample of ARPD completely dissolves. Consequently, the reagent has a high dissolving ability even under normal conditions, practically does not require heating the system. The presence of antioxidant additives and corrosion inhibitors in the composition of waste synthetic oil gives the reagent anti-corrosion properties and provides equipment with anti-corrosion protection.

Claims (2)

CLAIM 1. A reagent for removing asphaltene-tar-paraffin deposits, containing aliphatic and aromatic hydrocarbons, surfactants and a solvent, characterized in that it contains spent synthetic oil as an aliphatic hydrocarbon, a donaphthalene fraction of heavy pyrolysis resin, and C ₆ -C ₈ as a solvent hydrocarbon fraction of pyrocondensate and ionic surfactant in the following ratio of components, wt.%: Spent synthetic oil 15-25 Donaphthalene fraction of heavy pyrolysis resin 5-10 Ionogenic surfactant 3-5 С ₆ - С ₈ hydrocarbon fraction of pyrocondensate 2. The reagent for removing asphaltene-resin-paraffin deposits according to claim 1, characterized in that it contains spent synthetic compressor oil.