SU1421751A1 - Composition for removing asphalt-paraffin-resin deposits - Google Patents

Abstract

The invention relates to the oil industry and can be used to remove asphalt, resin and paraffin deposits (ARPD) in the bottomhole zones, production systems, transportation and storage of oil containing paraffins, resins and asphalthenes in a ratio of 1: (2.3- 10.7): (0.3-2.4), respectively. The aim of the invention is to increase the removal efficiency of ARPD containing paraffins, resins, asphaltenes; in the ratio of 1: 2.33:: 0.37. This goal is achieved with a composition containing 20–80% of a light pyrolysis resin and 20–80% of an oil heavy solvent. The effectiveness of the composition of 77.6-94.7%. 1 tab. ID (L with:

Description

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The invention relates to oil - | can be used to remove asphalt-resin pairs of fynovykh deposits (ARPD) in: bottom zones, production systems, transport and storage of oil containing paraffins, resins and asphaltines in a ratio of 1: (2, 3-10.7): (0.3- 2.4), respectively.

The purpose of the invention is to increase the removal efficiency of asphalt-resin-paraffin deposits containing paraffins, pitch: asphaltenes in a ratio of 1: 2.33: 0.37.15

Example 1 A light pyrolysis resin and heavy oil solvent are used to formulate the composition.

The light pyrolysis resin has the following composition, wt%: low saturated hydrocarbons 9.8; n-hexane 3.12; n-heptane 0.49; benzene 37.61 toluene 15.85; ethylbenzene and xylenes 3.9, styrene and isopropylbenzene 6.15; methylstyrene P, 0; unidentified 25 components - the rest.

The petroleum heavy solvent (nefras Ar) has the following composition, wt%: benzene. 3,6; toluene 9.4; ztillbenzene 2.9; m, p-kssh: oly 7.9; o-xylenes 3.2; 30 isopropyl benzene 1.9; ethyltoluene 8.2; 1,3,5-trimethylbenzene and n-propylbenzene 16.5; 1,2,4-trimethylbenzene and isobutylbenzene 8.5; 1,2,3 - trine-identified components - the rest.

ARPOS selected from the wells of the Em-Egovskiy and Vangapurovskiye fields in Western Siberia are placed in a screw mixer with which the samples of a certain weight are extracted. The sample is placed in a stainless steel mesh basket with a mesh size of 1.51.5 mm. The light pyrolysis resin and oil heavy solvent are mixed in a predetermined ratio and 30 ml of the obtained composition are poured into a special test tube, closed with a hook with a hook for hanging the basket with the ARPD sample. The tubes with the composition are placed in a thermostat with a given temperature (). After thermostating the tubes, baskets of ARPD samples are placed in the composition and held in a thermostat for 180 s. After the end of the experiment, the samples are dried to constant weight in a special cabinet at 25 ° C. The test result is determined as the average of three parallel experiments.

The proposed composition was tested on samples of AFS EM-Egovskogo and Vangapurovskogo deposits in Western Siberia. The ratio of paraffins, tar and asphaltenes is 1: 2.33: 0.37. The result of experiments to determine effekmetilbenzol 12.3; m-diethylbenzene 3.8; The removal properties of paraffin are represented by p-diethylbenzene 3.0; naphthalene 9.8; in the table.

unidentified components - the rest.

ARPOS selected from the wells of the Em-Egovskoye and Vangapurovskoye fields of Western Siberia are placed in a screw mixer, with which they extract samples of a certain weight. The sample is placed in a stainless steel mesh basket with a mesh size of 1.51.5 mm. A light pyrolysis resin and oil heavy solvent are mixed in a given co-bearing and pour 30 ml of the obtained composition into a special test tube, closed with a hook with a hook for hanging the basket with the ARPD sample. The tubes with the composition are placed in a thermostat with a given temperature (). After thermostating the tubes, baskets of ARPD samples are placed in the composition and held in a thermostat for 180 s. After the end of the experiment, the samples are dried to constant weight in a special cabinet at 25 ° C. The test result is determined as the average of three parallel experiments.

The proposed composition was tested on samples of AFS EM-Egovskogo and Vangapurovskogo deposits in Western Siberia. The ratio of paraffins, tar and asphaltenes is 1: 2.33: 0.37. The result of experiments to determine the effect

Content of components

The proposed composition

100

20 30 50 60

100 80 70 50 40

The removal efficiency of paraffin (average weight loss of the sample),%, deposits

72.4 67.0 77.6

84.9 84.0 86.4

Component content, Z

From the data in the table it can be seen that the proposed composition has a higher efficiency for removal of paraffin wax than known.

Claims (1)

The advantage of the composition is the same reduction in consumption and dwell time of the reagent in the oil-field equipment, due to its high dissolving ability in comparison with the known reagents. Invention Formula A composition for removing asphalt-resin-paraffin deposits, including Continued Table The removal efficiency of paraffin (average weight loss of the sample)% of deposits Solvent oil heavy, characterized in that, in order to improve the efficiency of removing asphalt-resin-paraffin deposits containing paraffin, tar, asphaltenes s 1: 2.33:: 0.37, it additionally contains a light pyrolysis resin in the following ratio of components, May.%: Easy pyrolysis resin20-80 Solvent oil t yellow 20-80