SU1707192A1 - Compound for hydraulic fracturing of formation - Google Patents

Abstract

The invention relates to the oil and gas fields and is intended for the treatment of productive formations. The purpose of the invention is to increase the thermal stability of the composition, reducing the swelling of clays while maintaining high sand-holding capacity and minimal filtration of the liquid. For this, the composition contains the following components with their ratio, vol.%: 0.3-0.7% aqueous solution of polyacrylamide (PAA) 10-20; monoalkylphenol based on propylene trimers (MTPP) 0.4-0.8; hydrocarbon liquid (VBV) the rest is up to 100. When preparing the composition, the calculated amount of MNPP and PAA are introduced into all the calculated amount of water successively with constant stirring. After this, the solution is left for 1 day to swell. Then, in the prepared solution with vigorous stirring, gradually in small portions of water and UVL. After the introduction of the entire estimated amount of the UGD composition is ready for use. 1 tab. (L

Description

The invention relates to the oil and gas industry and is intended for the treatment of productive formations.

A known composition for hydraulic fracturing containing water condensate, gas condensate (kerosene or diesel fuel) and an emulsifier (sulfonol NP-1, DT-10 sintanol or Petrov contact). Aqueous condensate contains 15-80% of low molecular weight acids, as well as aldehydes, ketones, alcohols, dicarboxylic acids. The disadvantage of this method is a significant filterability, low sand-holding capacity, as well as a significant swelling of clays.

The closest to the proposed invention to the technical essence and the achieved result is the composition for

hydraulic fracturing, including hydrocarbon fluid and monoalkylphenol based on propylene trimers. The hydrocarbon liquid is represented in this composition by gas condensate and, in addition, the composition contains aliphatic alcohol of the Ci-Cz fraction. The disadvantage of the composition is its low thermal stability.

The aim of the invention is to increase the thermal stability of the composition, reducing the swelling of clays while maintaining high sand-holding capacity and minimal filtration of the liquid.

The goal is achieved by those. that the known composition for hydraulic fracturing, including hydrocarbon fluid and monoalkylphenol based on propylene trimers, additionally contains 0.3-0.7% aqueous solution of polyacrylvj

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Mida (PAA) in the following ratio of components, vol.%:

0.3-0.7% water

polyacrylamide solution (PAA) 10-20

Monoalkylphenol on

trimer based

propylene0.4-0.8

Hydrocarbon liquid Else

The trade name for monoalkylphenol based on propylene trimers is neonol. In the proposed composition, an oil-soluble neonol of the AFE-4 and AF & -6 brands or a water-soluble neonol of the AFE-u and AFE-12 brands are used.

As a hydrocarbon liquid, the composition contains gas condensate or diesel fuel, light or medium density commercial oil with a low content of resin-asphalt and paraffinic substances with the following physicochemical characteristics:

Density, kg / m3, at 20 ° С Up to 880

Content of asphalt-resinous substances, May. % Up to 1s

Wax content

substances, wt.% Up to 6 and other light hydrocarbons, for example, gasoline, kerosene.

An aqueous solution of polyacrylamide contains fresh water (the amount of suspended particles in mg / l) and polyacrylamide, which can be dry (imported Pusher-500 or Pusher-700, or Polymer-6) or gel-like.

The proposed composition differs from the known one in that polar water-soluble polymers form complexes when interacting with non-ionic surfactants, as which the proposed composition contains monoalkylphenol based on propylene trimers. An introduction to the proposed formulation, which is a polyemulsion, a polar water-soluble polymer, such as an aqueous solution of PAA, affects the thermal stability of the emulsion.

The proposed composition does not cause clay swelling, since the water in it is in a bound state — in the form of a solution of PAA. The addition of a hydrocarbon fluid gives a thermostable polyemulsion high viscosity and sand-holding properties with minimal liquid filtration. The phase ratio in the proposed system is selected taking into account the basic properties of an oil-in-water emulsion and its required destruction when calling for oil flow, i.e. after doing your

functional purpose, without the additional introduction of demulsifiers.

In addition, after destruction, the emulsion improves reservoir properties for

by dissolving the ability of the hydrocarbon phase (dissolving asphalt-resinous and paraffin deposits) and inhibiting ability of the aqueous phase (inhibition of scaling by solution

0 PAA). The use of a non-inogenic type surfactant system (monoalkylphenol based on propylene trimers) does not cause precipitation upon contact with formation water.

5 The proposed formulation was prepared under laboratory conditions with vigorous stirring (up to 1300 rpm) on a laboratory stirrer of type LR-10 or LR-40 using the following technology. Water is consistent when

Monoalkylphenol based on propylene trimers and polyacrylamide are introduced under constant stirring, after which the solution is left for 1 day to swell. Then, the hydrocarbon liquid is introduced into the prepared solution with vigorous stirring in small portions. After the introduction of the entire amount of hydrocarbon liquid, the composition is ready for use.

0 The effective viscosity of the composition is determined on a Reotest-2 rotary viscometer.

The sand holding capacity is determined by the percentage of scrub fraction from 1.0 to 0.63 mm at a concentration in the liquid of 500 g / l in volume after settling for 24 hours. The stability of the emulsion under normal conditions is determined by the time during wherein the emulsion, which is stationary at normal temperature and pressure, fully retains its properties.

The thermostability of the emulsion is evaluated in a laboratory autoclave at a pressure of

5 300-350 at the maximum temperature at which the emulsion is operational (does not stratify) for one hour, i.e. the time required to complete the main and final works in hydraulic

0 fracturing.

The filterability is determined on a BM-6 instrument, and the swelling capacity on a device for determining the swelling of clays.

The table shows the compositions and properties of the proposed and known compositions.

It follows from the table (Example 2) that no emulsion is formed without surfactants, without PAA (Example 1), the emulsion has low effective viscosity (50 cP), low thermal stability (less than 80 ° C) and high

clay swelling capacity (5.8%). With a low content of the aqueous phase (5 vol.%, Examples 3 and 4.13 and 19), the emulsion is destroyed during its preparation (wrong phase ratio). With a high content in one phase (25 vol.%, Examples 11 and 12, 18 and 24), the emulsion has a low efficiency (less than 100 cP) and a higher, compared to the known, swelling of clays (0.5%).

When the content of the aqueous phase 10-20 vol. % when the concentration of PAA is 0.3-0.7 wt.% and surfactant 0.4-0.8% by volume (examples 5-10. 14-17, 20-23) the emulsion has optimal properties for the hydraulic fracturing process reservoir: high effective viscosity (100-200 cP, at a shear rate of 511 s), high sand-holding capacity (100%), high stability under normal conditions (more than 10 days), high thermal stability (100-125 ° C), low filterability (0.0017– 0.0020 cm3 / min) and clay swelling (0.3–0.4%).

The main advantage of the proposed composition is an increase in thermal stability up to 100-125 ° C compared with the known less than 80 ° C. However, other properties of the composition do not deteriorate, i.e. the composition has low filtration, does not cause swelling of clays, is capable of completely collapsing in the reservoir when the oil inflow is called and has a high sand-holding capacity.

F o rumlula and z o breetn

A hydraulic fracturing composition comprising a hydrocarbon fluid and monoalkylphenol based on propylene trimers, characterized in that, in order to increase thermal stability and reduce tire swelling while maintaining high sand-holding capacity and minimal fluid filtration, it additionally contains 0.3-0.7 % aqueous solution of polyacrylamide in the following ratio of components, vol.%: 0.3-0.7% aqueous solution of polyacrylamide 10-20 Monoalkylphenol based on propylene trimers 0.4-0.8 Hydrocarbon liquid Remaining

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Claims (1)

Claim Composition for hydraulic fracturing, including hydrocarbon fluid and monoalkylphenol based on propylene trimers, characterized in that, in order to increase thermal stability and reduce tire swelling while maintaining high sand-holding ability and minimal fluid filtration, it additionally contains 0.3-0.7% aqueous polyacrylamide solution in the following ratio of components, vol.%: 0.3-0.7% aqueous solution of polyacrylamide 10-20 Monoalkylphenol based on propylene trimers 0.4-0.8 Hydrocarbon Fluid Else Ί Physico-chemical properties of oil of the Talinsky field: density, 20 ^ C, kg / m ³ - 840; viscosity, 20 * C, cP-6; content Asphalt-resinous substances, wt. X: - 3.8; the content of paraffins masD - Z _g 5 *