SU1355620A1 - Composition for removal of resin-paraffin deposits in petroleum oil field equipment - Google Patents

Abstract

This invention relates to the mining industry. The purpose of the invention is to increase the detergent-dispersing and dissolving ability of the composition on oils of the type P. The composition contains the following components, with their cooling, wt%: polyethylene glycol monoalkylphenyl ether OP-10 10-15; over-tmil water (IV) 85-90. HB, a by-product of the production of phenol-formaldehyde resins at the stage of their drying, is used as an alcohol-containing product; it has an HB surface activity at the oil-water interface, as a result of which it exhibits detergent properties. The composition is prepared by mixing the surfactant with HB in a certain ratio at t-40-45 0. The mixing produces a circulation pump, the end of the preparation process is controlled visually according to the transparency of the composition in transmitted light. The heated composition is injected into the annulus. In contact with the composition, the solid deposits are dispersed and carried with the oil stream into the collection and transportation system. 4 tab. S (l

Description

The invention relates to the mining industry and can be used to remove solid deposits in the abyssal zones of wells, from the surface of underground and surface field equipment.

The aim of the invention is to increase the detergent-dispersing and dissolving ability of a composition on petroleum of the type II ,.

In order to remove smoloparaffin deposits in oilfield equipment during extraction, transportation and storage, a composition comprising an alcohol-containing product and monoalkylphenyl ether polyethylene glycol OP-10 is used, the composition contains alumina water as an alcohol-containing product, with the following ratio of components , wt.%:

Monoalkylphenyl. polyethylene glycol OP-10 ester

The ethoxylated alkylphenol OP-T is manufactured according to GOST.

Subsolar water is a by-product of the production of phenol forms of aldehyde resins at the drying stage and is a dispersion of substances used as stabilizers, detergents, cosolvent co-solvents in surfactants in compositions used for combating para-paraffin deposits. The composition of the supramolene water is as follows, wt.%:

Methyl alcohol ,. 8.5-9.0 Phenol2, 2.5-3.5

Formaldehyde2.5-3.5

Sodium hydroxide 0.2-0.25 Water Else

Subsolar water, due to the specificity of the composition, has surface activity at the boundary, oil-water, as a result of which it exhibits detergent properties (see Example 1).

10-15 85-90

The composition is prepared by mixing surfactant and over-resin water in a certain ratio.

B tab. Table 1 shows the substantiation of the ratio “Supersmill water: surfactant” - in terms of interfacial surface tension determined at the oil-water boundary by the stalagmometric-KIM method and according to the test for detergency for oil 3 (see Table 2).

but

ABOUT

556202

Given in Table. 1, the data show that the composition obtained at the ratio of Supersmill water: surfactant, 85:15 provides the greatest reduction in interfacial tension from 35.15 to

9.9 erg / cm, which contributes to the achievement of maximum detergent ability.

10 Further efficacy studies have been carried out for an optimal formulation containing 85 wt.h. 15 cm high supersmoral water, OP-10 surfactant.

The technological process of obtaining the composition is carried out on the existing production equipment according to the following scheme: centrifugal waters from storage tanks are pumped by a centrifugal pump into a standard2Q mash, to which a given amount of surfactant is added. At a temperature of 40-45 ° C. By turning on the circulation pump, the surfactant is mixed with the supersized water. Ending process

25 is controlled visually according to the transparency of the composition in transmitted light. The finished reagent is fed by a centrifugal pump into the container of the finished product and. Physical and chemical properties of

va:

Appearance

Homogeneous yellow to light brown liquid with a reddish tinge.

five

0

five

five

0

Temperature

with

boiling flash point solidification Density at, kg / m Viscosity, eats when solubility in water is not

20 ° С

not lower than minus 10

65

65-90

900-950 3.2

is good

dispersed The evaluation of the effectiveness of the composition in comparison with the prototype for various oils was carried out according to the test for detergent (detergent-dispersing ability). The sensibility of the method is to determine the percentage of the flushing of a film of oil before and after treating it with a reagent from a glass surface (see example 1).

A preliminary assessment of the effectiveness of dispersion and dissolution was carried out by visual observation of the state of paraffin deposits upon their rapid cooling from the melt point to room temperature in an aqueous medium. The formation of small clusters of paraffin deposits and the lack of adhesion to the walls of the vessel and to each other characterizes a good dispersing and wetting ability of the composition.

A quantitative assessment of the degree of dispersion and dissolution of paraffin in comparison with the prototype was carried out by changing the weight of sediments taken from paraffin-producing wells, after keeping them in 50 ml of the studied composition.

The paraffin deposits were pre-melted and hot applied in a uniform layer onto the walls of the flask. 50 ml of the proposed composition was poured into the flask, after which it was placed on a vibration unit. After a certain time, the degree of dissolution of the paraffin deposits was determined by weighing.

Example 1. Ksledali detergency and dispersing ability (detergency) of the proposed composition of oil (type P j).

IT

The concentration of the reagent in the oil was 0.02 wt.%. The research results are given in table. 3

The analysis obtained in the table. 3 data shows that the effectiveness of the proposed composition significantly improves the effectiveness of the composition of the prototype. Dp of oils of type P with a ratio of the sum of the active components equal to one, the detergent capacity is maximum and amounts to 98%.

PRI mme R 2. The dispersion and dissolution efficiency of the proposed composition was investigated on resin-paraffin deposits, having the following properties and composition,%: para-, fin 13.3; silica gel resins and asphaltenes 11.0; melting point of paraffin 69.2 ° C.

five

Q 5

0

five

five

0

An analysis of the above results shows that the use of a composition based on the resin-like year and surfactant significantly increases the dispersing ability and dissolution efficiency of paraffin deposits by 2-32% (see Table 4).

The results of laboratory tests show that the use of supra-resin water instead of a carrier increases the detergent-dispersant and dissolving ability of the reagent in comparison with the known. In addition, the need to re-treat the wells with a mixture of surfactants and solvents is eliminated.

The proposed composition can be recommended for removing tar-paraffin deposits on oil with oil type II according to the following technology: the preheated composition to 40-50 ° C in the amount of 2-3 volumes of the NKG is heated with the aid of the ADP-4 unit into the annulus of the well. The well is closed for 0.5-2 hours. In contact with the composition, solid deposits are dispersed and carried with the oil stream into the collection and transportation system.

Claims (1)

Invention Formula A composition for removing tar-paraffin deposits in oilfield equipment, including an alcohol-containing product and polyethylene glycol OP-10 monoalkylphenyl ether, which is so that, in order to increase the detergent-dispersing and dissolving ability of the composition in oils of type P “The composition as an alcohol-containing product contains supra-resin water - a by-product of the production of phenol-formaldehyde resins at the stage of their drying with the following ratio of components, wt.%: Monoalkylphenyl ether polyethylene glycol OP-1010-15 Sunflower Water 85-90 Table Effect of reagent ratios on surface tension and detergent ability The ratio of above-water: 11AB Indicators 100: 0 95: 5 90:10 80:20 Interfacial tension at the oil / water interface, erg / cm2 35.15 21.6 13.0 9.9 14.2 Determination test Gentality,% 20-25 10-55 30-70 40-98 40-60 . one: table 2 Oil Indicators -tg . -L-.l. -ll-.i-. Density, kg / m 875 861 865 Viscosity at 20 s, Mpa.s Pour point ° С The temperature of the oil on paraffin, С Content,% sulfur silica gel resins asphaltenes paraffin wax The output of fractions, boiling up to, wt.% Type of oil according to OST 912-66 The ratio of the sum of the active components (sulfur, resins, asphaltenes and paraffin) to the output of fractions boiling up to 150 ° C 29.0 10.8 14.9 -AT +2 -one 33.2 30.2 25.3 0.7 6.8 2.5 3.6 13.9 P 0.9 6.8 2.3 2.6 12.4 P, 1.0 13556208 Table 3: Composition of various oils Child's gentnost (% off oil film in 1-5 min) Prototype Analog Proposed composition 10-4510-3040-80 20-7015-6550-98 10-5040-60.40-98 one Table 4: Dissolve paraffin deposits Dispersion Wetting Efficiency dissolving paraffin deposits,% Good Good 26.4 Excellent Excellent 30.6-58.0 Editor Y. Sereda Compiled by V. Boryskin Gehred M. DIDYK Order 5750/24. Circulation 634Subscribe VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader V. But ha