RU2720773C1 - Composition of multifunctional gel piston for use on main pipelines - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.SUBSTANCE: invention relates to pipeline transport of oil, oil products and gas condensate and is intended for cleaning of pipelines from asphaltene-resin-paraffin deposits, water-oil emulsions and formation water. Composition of multifunctional gel piston includes water-soluble or partially cross-linked polyacrylamide, product of chemisorption of formaldehyde with aqueous solution of carbamide, hydrocarbon fluid, inorganic cross-linking agent, water, and additionally a second amide, which is carbamide, melamine or mixture thereof.EFFECT: invention improves elastic operational characteristics and increases level of cleaning of cavity of pipe from contaminants.1 cl, 1 dwg, 1 tbl

Description

The invention relates to pipeline transport of oil, oil products and gas condensate and is intended for cleaning pipelines of variable diameter up to 1200 mm with a variable direction of movement of the pumped media up to 90 degrees, both with underlay rings and without them, from asphalt-resin-paraffin deposits, oil-water emulsions and produced water .

When transporting oil or oil products due to precipitation, the formation of internal gas-air accumulations and water, the throughput of pipelines decreases, as a result of which their hydraulic resistance increases and the likelihood of mechanical failure increases.

Particularly affected sections of pipes having a complex configuration and variable cross-section, as well as large-diameter pipelines with washers.

Water and gas-air accumulations reduce the quality of the pumped product and contribute to the formation of emulsion systems resistant to destruction.

The mechanical devices used for cleaning in most cases are ineffective, especially with regard to pipelines of variable diameter.

High quality removal of paraffin and tar deposits on the pipe walls can only be achieved using gel pistons with high values of elastic properties. Due to this, the required tightness of the composition to the inner surface of the pipeline is guaranteed.

The known composition of the gel separation piston, including polyacrylamide (PAA), aliphatic alcohol C ₂ -C ₃ , a crosslinking agent, a mixture of mineral salts and water - the rest [RU No. 2115858, 6F 17D 3/08].

Its disadvantage is the low level of sealing of the pipe cavity, especially for a pipeline with a diameter of 300 mm or more.

The known composition of the gel separation piston based on polyacrylamide, a hydrocarbon fluid, a crosslinking agent, an alkali or alkaline earth metal salt and water - the rest [RU No. 2209364 B08B 9/027, F17D 1/12, op. 2003].

This composition is characterized by a low level of sealing of the pipe cavity, especially for a pipe of variable diameter with sharp turns when it is cleaned, since this results in a violation of the continuity of the gel separation piston.

The known composition of the separation piston for cleaning the pipeline and the separation of media containing polyacrylamide, oil, salt of mineral acid, a crosslinking agent, a powdered derivative of formaldehyde and fresh water [RU No. 2271879, B08B 9/027, op. 2004].

Its significant disadvantage is the low level of elastic characteristics of the gel composition and the insufficient sealing of the pipe cavity with a gel piston in pipelines with a diameter of 300 mm or more with washer rings.

The closest in technical essence is the composition of the gel piston described in [RU No. 2619682, BVB 9/027; B08B 9/053; F17D 1/12]. It includes a water-soluble polymer, a hydrocarbon liquid, organic and inorganic crosslinking agents, and water, and high molecular weight products of different classes are used as the polymer base, polymethylol urea derivatives are used as the organic crosslinking agent in the following components, masses. %: water soluble polymer - 8.0-10.0; hydrocarbon liquid - 6.0-8.0; polymethylol urea derivatives - 0.5-3.0; inorganic crosslinking agent - 0.001-0.003; water is the rest.

Its disadvantages include an increased variation in the degree of cleaning of the surface of the pipes, depending on the variable composition of the cleaning piston.

The aim of the invention is to optimize the composition of the gel piston, providing an improvement in its elastic characteristics and achieving a higher degree of cleaning of the pipe cavity of variable diameter up to 1200 mm with a changeable direction of movement of the pumped media to 90 °, both with washers and without them.

The problem is achieved in that the composition of the multifunctional gel piston for use on pipelines with the aim of cleaning them from asphalt-resin-paraffin media and other types of deposits includes a polymer, a formaldehyde-containing reagent, a hydrocarbon liquid, an inorganic crosslinking agent, water and, in addition, a second amide, and as a polymer use water-soluble or partially cross-linked polyacrylamide, in the role of a formaldehyde-containing reagent - the product of chemisorption of formaldehyde with an aqueous solution of urea grade KFK-85, and the second amide is urea, melamine or a mixture thereof, with the following components, mass. %:

Water soluble or partially crosslinked PAA 7.0-10.0 Hydrocarbon fluid 4.0-7.0 KFK-85 4.0-9.0 Inorganic Crosslinking Agent 0.001-0.003 Urea 3,5-8,0 Melamine (with a carbamide content of less than 4 wt.%) 1.0-4.0 Water rest

Thus, the essence of the proposed technical solution is the composition of the multifunctional gel piston obtained by sequential mixing of the listed components with the formation of a cleaning piston in a production environment.

In contrast to the prototype, the proposed technical solution significantly increased the content of formaldehyde-containing reagent and additionally introduced a second amide.

The polymer used is a powdered hydrolyzed polyacrylamide with MM = (8-18) * 10 ⁶ and a degree of hydrolysis of 5-20% or partially crosslinked PAA with similar characteristics.

The most suitable hydrocarbon liquid is light oil, kerosene or diesel. Its purpose is to prevent the adhesion of polyacrylamide particles to larger agglomerates when water or an inorganic crosslinking agent is added.

As a formaldehyde-containing reagent, the product of chemisorption of formaldehyde with an aqueous urea solution is used, manufactured under the trademark KFK-85 according to TU 2223 - 009 00206492-2007 and representing an aqueous composition containing a mixture of mono-, di- and trimethylolureas with methylene glycol:

carbamide in the form of methylolurea,% wt. 25 ± 0.5 formaldehyde in all forms,% of the mass. 60 ± 0.5 water rest

The inorganic cross-linking agent is an aluminum-chromophosphate binder (AHFS), manufactured in accordance with TU 2149-150-10964029-01 at FC Bui in the Kostroma Region or polyvalent metal salts: chromium chloride or sulfate, or chromium-potassium alum.

AHFS is a dark green viscous liquid with a specific gravity of 1550-1770 kg / m ³ at 20 ° C and contains 6.5-9.0% of the mass fraction of aluminum in terms of Al ₂ O ₃ , 3.5-4, 5% of the mass fraction of chromium in terms of Cr ₂ O ₃ , 35-40% of the mass fraction of phosphates in terms of P ₂ O ₅ , is a fire and explosion-proof product.

The mineralization of the applied water should not exceed 100 g / l.

As a regulator of acidity, providing a pH of the gel piston in the range of 3-6, if necessary, use hydrochloric and citric acids.

The formaldehyde-containing reagent included in the gel piston acts as a polyacrylamide modifier as a result of the following reactions.

The resulting modified derivative of polyacrylamide (~ CONHCH ₂ OH) is able to further condense in an acidic medium with the formation of a spatial network due to the interaction of methylol and amide groups.

2 ~ CONHCH ₂ OH → ~ CONHCH ₂ NHCO ~ + CH ₂ O + H ₂ O

~ CONHCH ₂ OH + ~ CONH ₂ (PAA) → ~ CONHCH ₂ NHCO ~ + H ₂ O

At the same time, not only PAA, but also carbamide, melamine, which are added to the gel piston, can enter into the reaction. Thanks to the introduction of the second amide, the density of the cross-linking of the gel piston is regulated, that is, its elastic properties.

The acid aluminochromophosphate, which is part of the gel piston, is able to form an ester with methyl ureas of a urea-formaldehyde concentrate.

With respect to dimethylolurea, its chemical structure can be represented by the following structural formula

where Me is Al, Cr.

As a result of the implementation of this mechanism, a polymeric branched network is also formed, the thermal and hydrolytic stability of which increases due to the presence of inorganic phosphate bridges in it.

The formation of reinforcing salt units is also confirmed in the case of

chromium chloride and sulfate, as well as chromium-potassium alum.

In parallel with the crosslinking of the methyl PAA derivatives, their co-condensation with the added amide, for example, carbamide, becomes possible according to the reaction below. As a result of its progress, confirmed by NMR spectroscopy, the required viscoelastic characteristics of a polymer rubber-like gel piston are formed.

where R is H, CH ₂ OH.

The manufacturing technology of the gel piston composition is quite simple and includes the sequential loading of components into the mixing apparatus and its transfer to the pipeline using the CA-320 unit after reaching a viscosity of (1.5-3) μ.

μ = d ² * (ρ ₁ -ρ ₂ ) * g / v, where

μ is the viscosity of the solution, poise;

d is the diameter of the swollen particles of PAA, m;

ρ ₁ - density of swollen polyacrylamide in the presence of additives KFK-85, kg / m ³ ;

ρ ₂ is the density of the salt curing solution, kg / m ³ ;

g is the acceleration of gravity, m / s ² ;

v is the sedimentation rate, m / s.

If we take d = 0.003 m, ρ ₁ = 1100 kg / m ³ , ρ ₂ - 1050 kg / m ³ , V = 0, 0001 m / s, then μ = 0.25 poise.

Subsequently, the process proceeds with auto-acceleration and, depending on the temperature, is completed within 2-4 hours.

The layout of the gel piston in the pipe being cleaned (displacing process device) is shown in FIG. 1.

The notation in FIG. 1:

1 - oil product (oil-water emulsion); 2 - rubber-cord sealant; 3 - foam piston No. 1; 4 - gel separation piston; 5 - foam piston No. 2; 6 - displacing medium (water or inert gas mixture).

Squeezing the finished piston into the cavity of the pipeline being cleaned is carried out under pressure using nitrogen cylinders without the use of a start-up chamber, which provides a high degree of safety during work. The movement of the gel piston through the pipe is achieved using an inert gas or a stream of water supplied by a pump.

The higher the elastic properties of the gel piston, the denser is its fit to the walls of the pipe being cleaned.

The gel pistons obtained by the claimed composition can be used to clean a pipeline of variable diameter up to 1200 mm and with a variable direction of movement of the pumped media up to 90 °, both with washer rings and without them.

Experiments to evaluate the effectiveness of the gel composition compared to the prototype were carried out on a bench, which is a pipeline of variable diameter 15-25 mm and a length of 30 m and includes turns at an angle of 90 °.

Before the start of the experiment, pre-weighed mud-paraffin deposits, which were selected from real trunk pipelines, were applied to the inner surface of the pipe. Then, gel formulations were prepared to form the pistons according to the prototype and technical solution examples.

The elastic force F and the stiffness of the material k based on the prepared gel compositions were determined on samples with a diameter of 5.2 cm and a height of 4.5 cm with an applied static load of 2 kg.

The composition of the pistons and the results of their research are shown in the table.

Component The content of components in gel compositions, wt.% prototype 1 2 3 4 5 6 polyacrylamide 8.0 9.1 8.6 8.3 7.8 7.7 7.5 KFK-85 3.0 4.0 6.0 6.5 8.6 8.7 8.3 diesel fuel 7.0 6.0 5.7 5.5 5.2 5.2 5,0 AHFS 0.002 urea - - - - 3.9 7.4 8.0 melamine - - - 3,7 2,3 - - mineralized water containing 6 wt. % sodium chloride rest Properties of gel compositions elastic force, N 0.47 0.56 0.55 0.75 0.73 0.64 0.67 stiffness, N / m 16.8 20.1 20.8 27.3 26.2 23.1 23.5

It can be seen that by adjusting the composition of the gel piston, it is possible to achieve a significant improvement in its elastic performance compared to the prototype, which will positively affect the removal of various deposits on the inner surface of the pipes when the gel piston passes through them.

According to the prototype, the cleaning efficiency of the pipeline varies from 69%, and according to the claimed technical solution, it exceeds 80%.

If you change the mass content of the components of the composition or non-compliance with the conditions for its preparation, the marked result will not be achieved.

Thus, only the proposed composition of the multifunctional gel piston will provide material with improved performance characteristics and achieve a higher level of cleaning of the pipe cavity of variable diameter up to 1200 mm with a changeable direction of movement of the pumped media up to 90 degrees, both with washers and without them.

Claims (2)

The composition of the multifunctional gel piston for use on pipelines to clean them of deposits, including water-soluble or partially cross-linked polyacrylamide, a product of formaldehyde chemisorption with an aqueous urea solution, a hydrocarbon liquid, an inorganic cross-linking agent and water, characterized in that it additionally contains a second amide, in the quality of which carbamide, melamine or a mixture thereof is used in the following components, wt.%: Water soluble or partially crosslinked polyacrylamide 7.0-10.0 Hydrocarbon fluid 4.0-7.0 Chemisorption product of formaldehyde with an aqueous urea solution 2.0-9.0 Inorganic Crosslinking Agent 0.001-0.003 Urea 3,5-8,0 Melamine (with a carbamide content of less than 4 wt.%) 1.0-4.0 Water Rest

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