SU1562433A1 - Composition for removing asphalt and resin deposits - Google Patents

Abstract

The invention relates to the technology of extraction and transportation of oil. The goal is to increase the cleaning efficiency of the bottomhole formation zone and oil field equipment from asphalt-resin deposits and reduce the viscosity of heavy resinous oils. The composition contains the following components, wt%: toluene 20-30, turpentine 20-30, hydroxypropyl monoalkylphenol (with a degree of hydroxypropylation 10-12) 1-3, gas gasoline the rest. The composition is prepared by mechanically mixing the components. The dissolving capacity of the proposed composition is 12–16% higher than the known. With the introduction of a 3% formulation, the viscosity of resinous oil is reduced by 40%. 2 tab.

Description

The invention relates to the technology of extraction and transportation of oil.

The purpose of the invention is to increase the dissolution efficiency.

The reagent as hydrocarbon solvents contains toluene, turpentine and gas gasoline, and as a surfactant - oxypropylated monoalkylphenol with a degree of oxypropylation of 10-12 in the following ratio of ingredients, wt.%: Toluene 20-30 turpentine 20-30; hydroxypropylated monoalkylphenol with a hydroxypropylation degree of 10–12 (surfactant) 1-3; gasoline the rest.

The effectiveness of the proposed structure is compared with the effectiveness of a known composition (Table 1). Ingredients

known composition: light pyrolysis resin, ethoxylated alkylphenol with a degree of oxyalkylation of 10-12 (OP-10) and gas gasoline with the number of carbon atoms in the molecule from 4 to 8.

In order to determine the dissolving and washing capacity of the composition, asphalt-resin deposits of deposit I are used. Oil from this deposit has a density of 0.949 g / cm3, wt%: resin up to 24.5, asphaltenes to 6.7, paraffin to 1 ,. Used sediments contain, wt%: resins 38.7 asphaltenes 28.8; oils 32.5.

Oil field B contains tar to 53.9 wt.%; asphaltenes up to 1.18 ma In asfapto-resinous sediment contains, wt.%: Resin 42,5; asphaltenes 28.3 {oils 29.2.

To carry out comparative tests of the proposed composition and limestone, the best compositions of the composition (composition 5, Table 1) are used and, according to the method described below, they are tested for dissolving and washing ability (Table 2).

The test procedure is as follows. Samples with sediments are placed in a pre-weighed mesh and weighed before testing. Then the mesh with samples of asphalt-resin deposits is placed in the tested composition, incubated for 120 minutes at 40 ° C, removed, dried and weighed. In addition, the laundering ability of the composition is determined in a circulating mode, i.e. In the U-shaped glass cell, sediment samples in the reticulum are suspended in the solvent volume and the composition is circulated by means of a stirrer at 800 rpm. Weighing is carried out similarly to the previous one. Exposure for 15 min.

From Tables 1 and 2 one can see a high removal efficiency of asphalt-resin deposits of the proposed composition in comparison with the known.

In addition, the proposed composition improves the rheological properties of oils.

Example. In order to increase the oil transportation capacity of the oil due to a decrease in viscosity, 1, 2 and 3 wt.% Of the proposed composition is added to the oil of field A. As a result, the viscosity of the oil decreases from 526 MPa C in the first case to 4-24,

in the second - up to 36 mPa siv third - up to 329 mPa-s. A decrease in viscosity is achieved after adding a 300 ml of the appropriate dose of the composition to the oil and mixing it for 5 minutes with a laboratory stirrer at a speed of 750 rpm. Oil viscosity is determined on a rheostaste-2.

Similar additives of known composition provide a reduction in viscosity from 526 mPa-s (initial oil viscosity) - in the first case (addition of 1 wt.%) A viscosity of 496 is obtained with an addition of 2 wt.%, The viscosity decreases to 459 mPa-s; with the addition of 3 wt.% - 405 MPa C.

Claims (1)

Invention Formula A composition for removing silty-resinous deposits containing hydrocarbon solvents and a surfactant, characterized in that, in order to increase the dissolution efficiency, it contains toluene, turpentine and gas benzene as hydrocarbon solvents, and oxypropyl as a surfactant. - lylated monoalkyl phenol with a degree of hydroxypropylation of 10-12 with the following ratio of ingredients, wt.%: Toluene 20-30 Turpentine 20-30 Oxypropylated monoalkylphenol with the degree of oxygenation 10 12 1-3, Gasoline Rest Table 1 20 20 Ostal 49 60 86 Table 2