SU1629304A1 - Composition for removing asphaltene-resin-paraffin deposits - Google Patents

Abstract

The invention relates to the petroleum industry and is intended for the cleaning of wells, the near-wellbore zone and oil-field equipment from asphalt-resin-paraffin deposits (ARP). The goal is to increase the efficiency of removal of AFS. For this, the composition contains a polymer by-product of the polymerization of isobutylene and an additive, which is used as bottoms from the production of methyl ethyl ketone. The ratio of components in the composition of the following, wt.%: Distillation residues from the production of methyl ethyl ketone 5-30; the by-product of the polymerization of isobutylene - the rest. The composition is prepared by simple mixing of the components. When using the composition, the duration of dissolving the ARPD is reduced. The composition has a low freezing point (60 ° C), it dissolves only in oil and does not pollute the associated water. 2 tab. Ј (L

Description

The invention relates to the oil industry, namely for cleaning wells, the bottom zone, oilfield equipment from asphaltoresin-paraffin deposits (ARP).

The aim of the invention is to increase the removal efficiency of ARP deposition.

The goal is achieved by the fact that the composition for removing deposits of oil equipment, including a polymer-semi-solid product of isobutylene polymerization and an additive, contains, as an additive, bottom residues from the production of methyl ethyl ketone in the following ratio, wt.%:

Bottoms

production

methyl ethyl ketone 5-30

Associated product

polymerization

isobutylenes Else

The byproduct of isobutylene polymerization is a mixture of di-, trimers of isobutylene and has. the following fractional composition: boiling point 110 ° С, 10% 195 ° С; 20% 206 ° C, 30% 214 ° C, 40% 222 ° C, 50% 232 ° C, 60% 244 ° C, 70% 255 ° C,

3

80% 270 ° C; 90% 276 ° С, end of boiling point 278 ° С, -Viscosity at 100 ° С 1.2 MPa s at 20 ° С 5.0, at -15 ° С. , 17.0 MPa-s, at 20 ° C, 23.0 MPa. s, - Density at 20 ° С is 790-810 kg / m 3. Medical weight is 180-230. Iodine number 126g-ion / 100 g. Octane number 80-85 units. The freezing temperature is below - 60 ° C, the flash point is lower.

Distillation residues from the distillation of methyl ethyl ketone, obtained by the method of oxosynthesis, are a clear liquid with a yellow tinge. The composition of the bottoms include, wt.%:

Methyl ethyl ketone35-50

Acetone5-10

Trimethylcarbonyl1-2

Ethers25-40 Secondary butyl alcohol

10-15

The boiling range is 45-230 ° C, the density is 760-810 kg / m, pH 6-7.

The composition is prepared by simple mixing of the components.

Composition tests were carried out by the rod method.

Use samples with a high content of ARPD.

The compositions of paraffin are given in table.1. The sediment sample is heated onto a steel rod 1 cm in diameter by heating. The layer height is 5 cm, weight 1 g. After cooling the deposit to room temperature, the sample is lowered into a cylinder with 50 ml of the tested composition and the duration of complete dissolution is determined.

Example. A sample of sediment containing, in wt.%; Asphaltenes 18.1; resins 21.4; paraffins 32.7; unidentified components 27.8 A deposition sample is applied to a steel rod. The rod is immersed in a cylinder with 50 ml of the composition containing 90% of polymers and 10% of the cubic residue of methyl ethyl ketone production. Complete dissolution of the deposit is observed after 30 minutes. Similar experiments were carried out with sediments of various compositions.

Q

five

0

five

0

The results of the experiments. Are given in table 2.

From Table 2 it can be seen that the compositions within the concentration range of 70-95% of polymers and 5-30% of the cubic residue (experiments 48) show higher dissolving properties than the individual components (experiments 1, 2) and the known composition (experience 3). The highest activity of the composition was obtained with the content of 85% of polymers and 15% of bottoms (experiment 6}. At the same time, the duration of the ARPD dissolution is 1.6-108 times lower than the known composition or 1.8-2.0 times lower than with pure polymer. An increase in the content of the bottom residue by more than 30% leads to a decrease in the dissolving capacity of the composition (experiments 9, 10).

Thus, the inter-treatment period of the I wells is increased by 1.6-1.8 times as compared with the refining period with existing solvents. The composition has a low freezing temperature (below -60 C). Conditions are created for the disposal of products - by interacting with the oil produced, without deteriorating its quality. The composition dissolves only in oil and does not pollute the associated water.

Claims (1)

Invention Formula A composition for removing asphaltene-resin-paraffin deposits in oil field equipment, including an associated polymerization product of isobutylene and an additive, characterized in that, in order to increase the effectiveness of the composition, it keeps as an additive residues of methyl ethyl ketone production in the following ratio of components , wt.%: Vat residues of the production of methyl ketone Associated product of the polymerization of isobutylene Table I