RU2323954C1 - Composition for removing asphalten-resin-paraffin deposites - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: composition for removing asphalten-resin-paraffin deposits contains, at least, one glycerine-based block copolymer of ethylenoxide and propylenoxide and a hydrocarbon solvent, which is a mixture of aromatic and aliphatic hydrocarbons, % vol.: at least, one block copolymer 0.5-5.0, aromatic hydrocarbon 30, aliphatic hydrocarbon - remainder.

EFFECT: improved efficiency of removal and decomposition of asphalten-resin-parffin deposits.

1 ex, 4 tbl

Description

The invention relates to the field of oil production, in particular to compositions for removing asphaltene-resin-paraffin deposits (paraffin), and can be used to dissolve and remove paraffin from the bottomhole formation zone, tubing, flow lines, pipelines, tanks and equipment of oil refineries.

A known composition for the removal of paraffin, containing a hexane and ethylbenzene fraction (copyright certificate of the USSR 1620465, IPC S09K 3/00, 1991).

The disadvantage of this composition is the insufficiently high efficiency of the removal of paraffin.

A known composition for removing paraffin containing a hydrocarbon solvent and an additive. As an additive, the composition contains a nitrogen-containing block copolymer of ethylene oxide and propylene oxide (with a molecular weight of ~ 5000) - Diproxamine-157 or a by-product of the pyrolysis of gasoline or a mixture of gasoline and gas raw materials - a heavy pyrolysis resin, or a mixture of Diproxamine-157 and heavy pyrolysis resin taken in a mass ratio of 1: 0.1-5.0 (RF patent 2157426, IPC C23G 5/032, ЕВВ 37/06, С09К 3/00, 2000).

The disadvantage of this composition is that the nitrogen-containing block copolymer of ethylene oxide and propylene oxide Diproxamine-157 is a substance of the third hazard class, which has a harmful effect on people and the environment.

Closest to the proposed invention is a composition for breaking oil-water emulsions and protecting oilfield equipment from corrosion and asphaltene-resin-paraffin deposits, including a block copolymer of ethylene and propylene oxides based on Laprol glycerol, a nonionic surfactant of the Disolvan type, and a solvent (RF patent 2250246, IPC C10G 33/04, 2003).

The disadvantage of this composition is the inapplicability to remove paraffin from oilfield equipment, bottom-hole formation zone, pipelines, tanks and equipment of oil refineries.

The present invention is the creation of an effective composition for the removal of paraffin.

The technical result is the creation of a composition that ensures the effective removal of paraffin from oilfield equipment, the bottomhole formation zone, pipelines, tanks and equipment of oil refineries and an increase in the effectiveness of the destruction of paraffin deposits by at least 50%.

The claimed technical result is achieved in that the composition for removing asphaltene-resin-paraffin deposits contains at least one block copolymer of ethylene oxide and propylene oxide based on glycerol and a hydrocarbon solvent - a mixture of aliphatic and aromatic hydrocarbons, characterized in that it contains components in the following ratio, vol.%:

At least one indicated block copolymer is 0.5-5.0,

Aromatic hydrocarbon - 30,

Aliphatic hydrocarbon - the rest.

The proof of applicability and high efficiency when removing the AFS of the claimed composition in comparison with the prototype are the results obtained during laboratory tests and are shown in table 4.

Thus, the set of essential features set forth in the claims, allows to achieve the desired technical result.

The destruction and dissolution of paraffin deposits is a rather complicated physicochemical process, since deposits are characterized by a complex composition, and various components of deposits have different solubilities in hydrocarbons. Therefore, both aliphatic and aromatic hydrocarbons must be present in the composition, affecting the entire set of heavy organic compounds in sediments. A glycerol-based block copolymer of ethylene oxide and propylene oxide is introduced to increase the efficiency of the composition by reducing the surface tension at the boundary with the paraffin deposits.

To prepare the claimed composition can be used:

The block copolymer of ethylene oxide and propylene oxide Laprol 3603-2-12, manufactured according to TU 2226-015-10488057-94, is a viscous liquid from colorless to dark yellow in color (additional information is given in table 1). The block copolymer of ethylene oxide and propylene oxide Laprol 5003-2-15, manufactured according to TU 2226-006-10488057-94, is a viscous liquid from colorless to light yellow in color (additional information is given in table 1). The block copolymer of ethylene oxide and propylene oxide Laprol 5003-2B-10, manufactured according to TU 2226-023-10488057-95, is a transparent viscous liquid (additional information is given in table 1). The block copolymer of ethylene oxide and propylene oxide Laprol 6003-2B-18, manufactured according to TU 2226-020-10488057-94, is a viscous liquid from colorless to dark yellow in color. Opalescence is allowed (additional information is given in table 1).

Aliphatic hydrocarbons: n-hexane grades “Ch”, “ChDA”, “ChCh” according to TU 2631-003-05807999-98 or hexane fraction (GF); wide fraction of light hydrocarbons (BFLH); wide fraction of hydrocarbons (HFCs); straight run gasoline (PB); straight-run fractions obtained in field plants with a boiling point below 120 ° C.

Aromatic hydrocarbons: toluene of the ChDA brand (GOST 5789-78 with amendment No. 1, 2) or toluene fraction; ethylbenzene (GOST 9385-77 as amended by 1, 2) or ethylbenzene fraction; isopropylbenzene fraction; butylbenzene fraction; Nefras A 130/150 (GOST 10214-78 amendment 1, 2).

An example of the preparation of the proposed composition in the laboratory.

Example. 0.5 ml of Laprol 5003 2B-10 (0.5 vol.%), 30 ml of ethylbenzene (30 vol.%) Are successively poured into a 100 ml chemical cylinder, and the volume of the composition is adjusted to 100 ml by adding n-hexane. The cylinder is closed with a ground stopper and the resulting composition is mixed with agitation.

Compositions with different component contents are prepared in a similar manner.

The effectiveness of the removal of paraffin was determined by the following method.

A homogenized paraffin sample was stuffed into a plastic syringe and molded into cylinders with a diameter of 13 mm, a height of 20 mm and a weight of 1.8-2.2 g. Next, the sample was placed in a pre-weighed basket made of steel mesh with a mesh size of 1.5 × 1 5 mm. The size of the basket is 70 × 15 × 15 mm. The sample basket was weighed. Then, a basket with an AFS sample was placed in a glass sealed cell where 100 ml of the test composition was poured. Static mode, contact time - 2 hours, temperature 20 ° С. After the specified contact time, the basket with the remaining paraffin deposits in it was removed, dried until a constant weight was reached, and weighed again. The effectiveness of the removal of paraffin was calculated by the formula:

where m ₀ is the mass of paraffin taken for analysis, g;

m ₁ - the mass of the remainder of the paraffin in the basket after analysis,

Parameters of paraffin used in laboratory studies are shown in table 2.

The content of the components in the investigated compositions are shown in table 3.

The experimental results are shown in table 4.

As can be seen from the results of the experiments, the proposed compositions demonstrate high efficiency removal and destruction of paraffin.

Table 1 The main indicators of the properties of block copolymers of ethylene oxides and propylene oxides based on glycerol Block copolymer brand Property metrics Molecular mass Dynamic viscosity at 25 ° С, MPa · s Laprol 3603-2-12 3600 500-650 Laprol 5003-2-15 5000 700-950 Laprol 5003-2B-10 5000 800-950 Laprol 6003-2B-18 6000 1000-1300 table 2 Composition of sediments used in laboratory tests Sample Field Composition,% mass. Asphaltenes Resins Paraffins Mechprimesi ASPO-1 Khasyreyskoe 39.18 27.04 32.59 1.19 ASPO-2 Nyadeyu 48.71 18.46 31.47 1.36 ASPO-3 Cherpayu 28.43 34.92 35.11 1,54

Table 3 The content of components in the investigated compounds Structure The content of components,% vol. Hydrocarbon base Additives Composition-1 Hydrocarbon solvent - 99.0 Laprol 3603-2-12 - 1.0 Composition-2 Hydrocarbon solvent - 99.0 Laprol 5003-2B-10 - 1.0 Composition-3 Hydrocarbon solvent - 99.5 Laprol 5003-2B-10 - 0.5 Composition-4 Hydrocarbon solvent - 99.0 Laprol 6003-2B-18 - 1.0 Composition-5 Hydrocarbon solvent - 95.0 Laprol 6003-2B-18 - 5.0 Composition-6 Hydrocarbon solvent - 98.5 Laprol 5003-2B-10 - 0.75 + Laprol 6003-2B-18 - 0.75 Composition-7 Hydrocarbon solvent - 99.5 Laprol 5003-2B-10 - 0.25 + Laprol 6003-2B-18 - 0.25 Composition-8 Hydrocarbon solvent - 99.0 Laprol 5003-2B-10 - 0.5 + Laprol 6003-2B-18 - 0.5 Composition-9 Hydrocarbon solvent - 95.0 Laprol 5003-2B-10 - 2.5 + Laprol 6003-2B-18 - 2.5 Composition-10 Hydrocarbon solvent - 98.5 Laprol 3603-2-12 - 0.5 + Laprol 5003-2B-10 - 0.5 + Laprol 6003-2B-18 - 0.5 Composition-11 Hydrocarbon solvent - 95.5 Laprol 3603-2-12 - 1.5 + Laprol 5003-2B-10 - 1.5 + Laprol 6003-2B-18 - 1.5

Table 4 The results of the study of the effectiveness of the compounds Structure The effectiveness of the destruction of paraffin,% ASPO-1 ASPO-2 ASPO-3 Composition-1 76.60 75.25 75.81 Composition-2 78,43 77.92 78.14 Composition-3 71.65 72.06 71.94 Composition-4 81.39 80.27 80,20 Composition-5 72.04 73.32 73.91 Composition-6 94.17 94.59 94.52 Composition-7 78.63 77.80 79.96 Composition-8 86.55 86.02 87.85 Composition-9 76.11 75.79 76.26 Composition-10 92.76 92.66 93.04 Composition-11 75.19 76.28 74.93

Claims (1)

Composition for removing asphaltene-resin-paraffin deposits, containing at least one block copolymer of ethylene oxide and propylene oxide based on glycerol and a hydrocarbon solvent - a mixture of aromatic and aliphatic hydrocarbons, characterized in that the composition contains components in the following ratio, vol.% : at least one indicated block copolymer 0.5-5.0 aromatic hydrocarbon thirty aliphatic hydrocarbon rest