RU2116433C1 - Viscous-resilient compound for completion and overhaul of wells - Google Patents

Abstract

FIELD: oil and gas well repair and maintenance machinery and equipment. SUBSTANCE: compound can be used as well killing fluid, perforation medium, hydraulic fracturing fluid, sand-carrying agent, and also as viscous-resilient dividing agent in cementation of wells. Compound has following components, mass%: reagent based on polysuccharides 1-3, hydroxide of alkali metal 0.05-0.45, sulfate of aluminium or copper 0.15-0.3, monoperoxihydrate of urea 0.1-0.2, water - the balance. Application of aforesaid compound ensures reduction of penetrating and sedimentation action on productive reservoir due to reduced time for structurization. Also it cuts filtration, increases viscosity with retention of permeability for oil in zone of sedimentation. Ensured is uniform destruction of compound without shrinkage with retention of low filtration of compound after destruction with simultaneous retention of high gas-holding characteristic. EFFECT: higher efficiency. 2 tbl

Description

 The invention relates to the field of oil production, in particular, to technological compositions used for completion of wells, their overhaul as a killing fluid, perforation medium, fracturing fluid and sand carrier, as well as a viscoelastic separator for well cementing.

 Known composition for opening the reservoir, containing, wt.%: Hydroxyethyl cellulose or carboxymethyloxyethyl cellulose 0.1-1.0, starch 0.05-3.0, potassium chloride, or sodium, or calcium 1.0-20.0 and water - the rest / sm.a.s. USSR N 1724671, class C 09 K 7/02, 1989 /.

 The known composition has low values of the filtration rate, reduced surface tension at the boundary with the rock, which allows it to be used to open the reservoir.

 A significant disadvantage of the known composition is its high penetration into the reservoir due to low viscosity and structural properties, low sedimentation stability and gas retention.

 In addition, the known composition does not have a sufficiently high destructive ability, which does not allow to completely restore the permeability of the reservoir after the repair work in the well.

 Closest to the claimed technical solution according to the technical essence is a viscoelastic composition containing a polysaccharide-based reagent, for example, carboxymethyl cellulose / CMC /, a builder / sodium, potassium or ammonium dichromate in combination with lignosulfonates / destructor / salt of perchloric acid / and water at the following content ingredients, wt.%: CMC 1.0-2.5, chromates 1.0-3.0, lignosulfonates 0.2-0.7, salt of perchloric acid 0.75-2.1 and water - the rest / cm. RD 39-0147035-236-89 "Instructions for the technology of deep penetrating hydraulic fracturing", M, 1988, pp. 16-17 /.

 The known composition has high viscoelastic properties, high gas retention and high destructive properties.

 However, this known composition does not ensure the preservation of the initial permeability of the reservoir, because the process of structure formation in a known composition / the appearance of viscoelastic properties / takes place over a long time / at least 8-10 hours /, as a result of which the known composition manages to penetrate into the reservoir at a great depth, forming a zone of mudding with low permeability to oil.

 In addition, during the destruction process, the composition “shrinks” with the formation of a brittle elastic sludge and the separation of a large amount of dispersion medium, characterized by low viscosity and high filtration properties. This leads to additional mudding of the reservoir.

 At the same time, for the preparation of a known composition, an increased consumption of reagents, in particular, a structurant and a destructor, is required, and the preparation process requires a significant investment of time.

 As a structure-forming agent in a known composition, environmentally hazardous substances are used, namely chromates and lignosulfonates.

 The aim of the present invention is to reduce the penetrating and colmatizing effects of the composition on the reservoir by reducing the time of structure formation, reducing filtration, increasing viscosity, preserving the permeability of oil to the mud zone and ensuring non-shrinking uniform destruction of the composition while maintaining low filtration of the composition after destruction while maintaining high gas retention ability.

 An additional goal is to ensure the environmental friendliness of the composition and reduce the consumption of chemicals.

This goal is achieved by the fact that the well-known viscoelastic composition for completion and repair of wells, including a polysaccharide-based reagent, a structurant, a destructor and water, additionally contains alkali metal hydroxide, as a structurant, the composition contains aluminum sulfate or copper sulfate, and monoperoxyhydrate as a destructor urea in the following ratio of ingredients, wt.%:
polysaccharide based reagent 1.0-3.0
alkali metal hydroxide 0.05-0.45
structurant - aluminum sulfate or copper sulfate 0.15-0.3
urea monoperoxy dehydrate 0.1-0.2
water the rest.

 Thanks to the combined processing of the polysaccharide reagent with a complexing salt and an alkali metal hydroxide with simultaneous treatment with urea monoperoxyhydrate in the proposed ratio of ingredients, it was possible to obtain a highly structured viscoelastic composition that ensures the permeability of the rocks of the productive formation by accelerating structure formation, reducing filtration, increasing viscosity and preventing shrinkage of the composition in early destruction, as well as by maintaining low filtration properties of the composition after destruction. Moreover, the above properties of the proposed composition has a lower consumption of reagents.

 This is explained by the fact that when complexing ions / aluminum and copper / are introduced into an aqueous polysaccharide solution in the presence of an alkali metal hydroxide, a spatial organomineral structure with pronounced viscoelastic properties is apparently formed, whose stability over time is determined by the concentration of complexing salts and alkali. The additional introduction of urea monoperoxyhydrate, the structure of which includes both a peroxide group that promotes oxidative degradation of polysaccharides and antioxidant amines, also determines the stability of the viscoelastic composition over time, while urea monoperoxyhydrate has a milder effect and contributes to the uniform process of destruction reducing the viscosity of the proposed composition in the entire volume without separation of the dispersion medium and shrinkage of the composition.

To obtain the proposed composition in laboratory conditions, the following substances were used:
Tylose EHM hydroxyethyl cellulose,
carboxymethyl cellulose of the Kamcel-2 brand, TU 2231-001-35193780-96,
modified starch, TU 18-RSFSR-91-72,
sodium hydroxide, GOST 6-01-204847-06-90,
potassium hydroxide, GOST 9285-78,
aluminum sulfate GOST 4165-75,
urea monoperoxyhydrate, STP 9-30-79,
process water with a hardness of not more than 3 mg / equiv / l.

 Given the different reservoir conditions in which the proposed composition will be used, it is recommended to use potassium, sodium and calcium chlorides to increase its density.

 The essence of the invention is illustrated by the following example.

 Example. To obtain the claimed composition, 175 g of calcium chloride was added to 317 g of industrial water, mixed for 15 minutes, 5 g of OEC was added, stirred for 20 minutes, 0.75 g of copper sulfate, 1.5 g of alkali and 0.75 g of urea were introduced with stirring and received a composition with the following ratio of ingredients, wt.%: OEC - 1.0, aluminum sulfate - 0.15, NaOH - 0.3, urea monoperoxide hydrate - 0.15, calcium chloride - 35 and water - the rest.

 Similarly prepared the other inventive compositions with different ratios of ingredients.

In the course of laboratory studies, the following properties of the claimed composition were determined: gelation time / hr / min /, filtration rate / cm ³ for 30 min / shear stress / g / cm ² / and dynamic viscosity cp) / was measured on a Keppler’s Reo-Viscometer /, filtration composition through a porous filter with a pore diameter of the filter 160 μm / cm ³ /, oil filtration through the zone of clogging after filtering the composition through a filter with a pore diameter of 160 μm / cm ³ / time of the beginning of the destruction of the composition, the filtration rate / cm ³ in 30 min / and dynamic viscosity / cP / composition after acala destruction.

 The colmatizing ability of the composition was determined by the volume of the filtrate, filtered through a glass porous filter of a Schott funnel with a filter pore diameter of 160 μm at a pressure drop of 0.1 MPa. For this, a Schott funnel was inserted into a Bunsen flask connected to a vacuum pump, the filtrate was wetted with oil, the test composition was placed and the amount of filtrate filtered out after 30 minutes was determined at a pressure drop of 0.1 MPa. The amount of filtrate was judged on the colmatizing ability of the composition. After removal of the composition, 10 ml of oil was poured into the funnel and the rate of oil filtration through the zone of clogging was determined. The rate of oil filtration was used to judge the colding effect of the composition on the reservoir.

 The time of structure formation and the appearance of viscoelastic properties was determined by the time of the yield strength of the composition, after which the tensile strength / shear stress / and dynamic viscosity were measured.

 The start time of the destruction was determined by the time of the appearance of the fluidity of the composition and a sharp decrease in dynamic viscosity and tensile strength / shear stress /.

 The gas-holding ability of the composition was determined by the rate of rise of air bubbles in the measuring cylinder, for which a glass tube with a diameter of 1 mm was lowered to the bottom into a 100 ml cylinder filled with the proposed composition and air was passed at a pressure equal to the hydrostatic pressure in the cylinder.

 In the course of laboratory research, the same properties were studied in formulations known by analogy and prototype.

 Data on the content of ingredients in the claimed and known compositions are given in table. one.

 Data on the properties of the claimed and known compositions are given in table. 2.

The data given in table. 1-2 show that the proposed viscoelastic composition for completing and overhauling wells has the technologically necessary formation time / from 10 to 40 min / low values of the filtration rate / 0-1 cm ³ for 30 min /, high tensile strength / shear stress 160- 200 g / cm ² / high values of dynamic viscosity / 9540-12800 cps /, the claimed composition has low penetrating ability even in highly permeable formations / through a filter with a diameter of 160 .mu.m filtered only 0-1 cm ³ of filtrate /, wherein the composition does not bridging the productivity the first layer providing a high filtration rate of oil through colmatation / filtering rate of oil zone 10 cm ³ for 2-5 min /.

At the same time, the inventive composition retains the properties for the time required for completion and overhaul operations / time to start destruction after 1-6 days /, but even after destruction the composition maintains low values of the filtration rate / 2.5-6 cm ³ in 30 min.

 In addition, the claimed composition has a high gas-holding ability / speed of ascent of air bubbles 0 m / min /.

 For the preparation of the inventive composition requires 6.1 to 9.3 times less structure-forming agent and destructor than in the prototype, with an equal polymer consumption.

These technical advantages of the proposed composition when used in commercial conditions will allow:
to improve the quality of the secondary opening of productive formations during the overhaul of wells (for example, during killing and subsequent development of wells) by fully preserving the permeability of rocks of the productive formation as a result of preventing the penetration of the composition into the bottomhole zone to a greater depth, subsequent destruction of the composition and its removal from the well without additional acid treatments
to completely prevent complications and accidents in the process of overhaul of wells associated with gas manifestations due to the high gas-holding ability of the composition,
reduce the time and money spent by 5-10 times on the preparation of the composition by reducing the consumption of chemicals, accelerating the time of structure formation and preventing the penetration of the composition into the reservoir.

to increase the environmental friendliness of the composition by eliminating environmentally hazardous chemicals,
to prevent complications associated with the absorption of the composition in the process of killing wells, due to the high viscosity and low penetrating ability of the composition,
to provide high-quality hydraulic fracturing of the formation process due to high sand-holding ability, low filtration and destructive ability,
to ensure high quality cementing due to the complete cleaning of the wellbore from drilling fluid residues due to the high displacement ability of the composition due to viscoelastic properties.

Claims (1)

A viscoelastic composition for completion and overhaul of wells containing a polysaccharide-based reagent, a structural agent, a destructor and water, characterized in that the composition additionally contains an alkali metal hydroxide, and aluminum sulfate or copper sulfate as a structural agent, and urea monoperoxyhydrate as a destructor in the following ratio of ingredients, wt.%:
Polysaccharide-based reagent - 1.0 - 3.0
Alkali metal hydroxide - 0.05 - 0.45
Aluminum sulphate or copper sulphate - 0.15 - 0.3
Urea monoperoxyhydrate - 0.1 - 0.2
Water - Rest

Images