RU2099382C1 - Composition for removement of asphalthene-resin-paraffin depositions - Google Patents

Abstract

FIELD: oil production. SUBSTANCE: composition comprises, mas.%; petroleum raw materials or chemical raw materials for production of technical carbon, 0.01-20; hydrocarbon solvent, the balance. EFFECT: improved quality of desired product. 3 tbl

Description

 The invention relates to the oil industry and can be used to remove asphaltene-resin-paraffin deposits (paraffin) in the process of oil production.

 A known composition for removing asphaltene-resin-paraffin deposits, including benzene or its homologues and naphthalene (USSR patent N 1782234, C 09 K 3/00, 1992). The disadvantage of this composition is the low efficiency of the removal of paraffin waxes.

A known composition for removing asphaltene-resin-paraffin deposits, containing gas gasoline with the number of carbon atoms C ₄ -C ₈ and an oil-soluble surfactant (A. St. N 633887, 09 K 3/00, 1978). A disadvantage of the known composition is the low removal effect of paraffin.

The closest in technical essence to the present invention is a composition for removing asphaltene-resin-paraffin deposits, including light pyrolysis resin, oil-soluble surfactant and gas gasoline with the number of carbon atoms C ₄ -C ₈ (a.s. St. N 1060656, C 09 K 3/00, E 21 B 37/06, 1983). However, this composition is ineffective for sediments with a high content of asphaltenes and paraffins.

 The present invention is based on the task of developing a composition for removing deposits with a high content of asphaltenes and paraffins.

 The problem is solved in that the composition for removing asphaltene-resin-paraffin deposits, including sulphating agent and hydrocarbon solvent as a solvating substance, contains petroleum or coke-chemical raw materials for the production of carbon black in the following ratio of components, wt.

Petroleum or coke-chemical raw materials for production of carbon black 0.01 20
Hydrocarbon solvent rest
The essential features of the invention are:
1. hydrocarbon solvent;
2. solvating agent;
3. petroleum or coke-chemical raw materials for the production of carbon black, thermogasoil and anthracene fraction;
4. The quantitative ratio of components.

 Signs 1, 2 are common with the prototype, signs 3, 4 are essential distinguishing features of the invention.

 SUMMARY OF THE INVENTION

 Deposits of paraffin deposits, especially on the surface of underground equipment, lead to blockage of well strings and make it necessary to stop wells and carry out repairs.

 The task of removing asphaltene-resin-paraffin deposits from the surface of oilfield equipment was solved by different, including physico-chemical methods. However, the compositions developed so far for the removal of paraffin deposits are effective in the removal of paraffin deposits with a low content of asphaltenes and paraffins. At the same time, a very large amount of oil is released during the extraction of deposits with a high content of asphaltenes (up to 60%) and paraffins (up to 50%). To combat such deposits and developed the proposed composition. The presence in the composition as technical equivalents of petroleum feedstock (thermogasoil) or coke-chemical feedstock for the production of carbon black (atracene fraction) provides a more complete and faster compatibility of the hydrocarbon solvent with paraffin wax with a high content of asphaltenes and paraffins and, therefore, their more complete and faster removal.

 Petroleum raw materials for the production of carbon black (thermogasoil) are produced according to TU 38.1011254-89. Coke-chemical raw materials for the production of carbon black (anthracene fraction) are produced in accordance with GOST 11126-88.

 The petroleum and coke-chemical raw materials for the production of carbon black are a mixture of aromatic hydrocarbons of polyalkylbenzene polyalkylnaphthalene and polyalkylanthracene series and are characterized by the following quality indicators (see table 1).

 As a hydrocarbon solvent, the proposed composition contains extraction gasoline according to TU 3338101303-72, BR-1 gasoline (galosh gasoline) according to GOST 443-76, Nefras A-63175 according to OST 3801199-80, gasoline unstable according to TU 38101524-93, wide light hydrocarbon fraction according to TU 33338101524-93, etc.

 An analysis of the known solutions selected in the search process showed that in science and technology there is no object similar in the claimed combination of features and the presence of the above properties and advantages, which allows us to conclude that the invention meets the criteria of "novelty" and "inventive step".

 To prove the compliance of the claimed invention with the criterion of "industrial applicability" we give examples of specific performance (table. 2).

 The proposed composition is obtained by simple mixing of the starting components.

 Example 1 (prototype). 0.3 g of OP-10 and 39.7 g of gasoline are added to 60 g of light pyrolysis resin. The mixture is stirred until smooth.

 Example 2 (proposed). To 20 g of thermal gas oil add 80 g of unstable gasoline. The mixture is stirred until smooth.

 Example 3 (proposed). To 10 g of the anthracene fraction, 90 g of gasoline is added. The mixture is stirred until smooth.

 Example 4 (proposed). To 1.01 g of thermogas oil, 99.99 g of a wide fraction of light hydrocarbons are added. The mixture is stirred until smooth.

 The proposed composition is tested for the effectiveness of the removal of paraffin deposits according to the method developed at the Research Institute of Oil and Gas Industry. For testing, take AFS composition according to the table. 2.

 The prepared paraffin sample is filled into a cylindrical shape 16 mm high, cooled for 2 hours, then squeezed into a pre-weighed basket from a brass mesh with a mesh size of 1.5 x 1.5 mm. The size of the basket is 70X15X15 mm.

A basket with an AFS sample is weighed and the weight of an AFS sample is determined to the third decimal place. A basket with an AFS sample is placed in a 100 ml glass sealed cell, in which a solvent sample (60 ml) is poured. The dissolution time is maintained for 3 hours, the dissolution temperature is maintained in a thermostat with an accuracy of ± 0.2 ^o C.

 After 3 hours, the basket is removed and placed in an extractor connected to the water-jet pump. The remaining pressure in the extractor is 0.25 mm Hg. Drying the baskets with the remainder of the paraffin is continued to constant weight. The mass of the AFS residue in the basket is calculated to the third decimal place.

The mass of paraffin, dissolved in a solvent, is calculated to the third decimal place by the difference:
m _ref m _ost
Where
m _ref mass of the initial paraffin sample, g,
m _{ost the} mass of the rest of the paraffin in a basket, g

 The removal efficiency of paraffin is calculated by the formula, in mass.

E m _out m _ost / m _out .

 The test results of the proposed composition and prototype with respect to paraffin deposits 1, 2, 3 are shown in table 3. Analysis of the data in the table shows that the proposed composition is more effective than the prototype for deposits with a high content of asphaltenes and paraffins.

 Replacing the solvents used in the examples with other hydrocarbon solvents (galosh gasoline, A-63175 nefras, extraction gasoline) does not fundamentally change the value of the AFS removal efficiency.

 The application of the proposed composition will improve the removal efficiency of paraffin and increase the overhaul period of the well.

Sources of information taken into account when preparing the application:
1. USSR patent N 11782234, cl. C 09 K 3/00, publ. 1992

 2. USSR author's certificate N 638887, cl. C 09 K 3/00, publ. 1980 prototype.

Claims (1)

 Composition for removing asphaltene-resin-paraffin deposits, including a solvating agent and a hydrocarbon solvent, characterized in that the solvating agent contains petroleum or coke-chemical raw materials for the production of carbon black in the following ratio, wt. Petroleum or coke chemical raw materials for the production of carbon black 0.01 20.0
Hydrocarbon solvent

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