RU2386658C1 - Backfill composition for remedial cementing - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: invention relates to oil industry, specifically to backfill compositions for remedial cementing. The backfill composition for remedial cementing contains the following in wt %: natural bitumen 23.5-42.4; organosilicon fluid Silor 1.8-4.5; wood flour 0.5-5.0; process water 55.3-67.0. ^ EFFECT: increased capability of the composition for remedial cementing, prolongation of the effect of the said remedial cementing with reduced cost of repair and consumption of expensive reagents. ^ 1 tbl,1 ex

Description

The invention relates to the oil industry, in particular to plugging compositions for repair and insulation work in the well.

Known bitumen-containing reagent for enhancing oil recovery and limiting water inflow into oil wells and a method for processing an oil reservoir [patent RU No. 2230900, IPC EV 43/32. Publ. 10/10/2003]. The reagent for enhancing oil recovery includes a bitumen emulsion, which is a dispersion of bitumen in an aqueous solution and a surfactant, which contains as a specified dispersion a fine dispersion of bitumen with a melting point of 35-135 ° C in a 1% aqueous solution of NaOH or HCI, and surfactant - cationic, anionic or nonionic - as an emulsifier, and additionally calcium chloride, in the following ratio of components, wt.%: the specified bitumen 30.0-80.0; the specified emulsifier is 0.15-5.0; calcium chloride 0.05-0.5; 1% aqueous NaOH or HCI else. In a method for treating an oil reservoir, including injecting said bitumen-containing reagent or a mixture thereof with a hydrocarbon solvent and / or mineral powder into the reservoir, oil or bottoms from the production of ethylbenzene and styrene are used as the KORE resin, and bentonite as the mineral powder clay. The disadvantage of a bitumen-containing reagent for increasing oil recovery and a method for treating an oil reservoir is that for the preparation of a bitumen-containing reagent, it is necessary to preheat an aqueous solution of NaOH, oil and calcium chloride to a temperature of 80-90 ° C, and also to heat the bitumen to a temperature of 150-170 ° C , which is difficult to implement when preparing a bitumen-containing reagent under field conditions at the well.

Closest to the proposed is a method of isolating zones of water inflow in the well [patent RU No. 2283422, IPC ЕВВ 33/138, С09К 8/82, С09К 8/84. Publ. September 10, 2006 Bull. No. 25]. The method involves the use of a reverse emulsion based on an aqueous dispersed phase and a hydrocarbon dispersion medium and grouting composition reinforcing a waterproofing screen in a formation for isolating water inflow zones in a well. The grouting composition is pumped by sequential alternation with each portion of the reverse emulsion, the Silor silicone fluid is introduced into the reverse emulsion during its preparation in the amount of 5-10% of the volume of the hydrocarbon dispersion medium, and the composition is used as the grouting composition reinforcing the waterproofing screen in the formation, containing 82-92 vol.% silicone fluid "Silor" and 8-15 vol.% 8% solution of hydrochloric acid. The reverse emulsion of the prototype contains 4-6 vol.% Silicone fluid "Silor", 74-76 vol.% Oil and 20 vol.% Water. The disadvantage of this method is the difficulty of its implementation, since for the repair and insulation work it is necessary to prepare and sequentially pump two different grouting compositions into the well - a highly viscous emulsion containing Silor silicone fluid, and a reinforcing compound, which is a Silor silicone fluid mixture with hydrochloric acid solution. When implementing the method, a large amount of Silor silicone fluid is used, the cost of which is higher than the cost of most other reagents used in repair and insulation works. In addition, the effect of the application of the method is limited to a time interval of up to one year, after which time the emulsion used in the implementation of the method exfoliates and loses its tamping properties.

An object of the invention is to increase the insulating ability of the composition for repair and insulation works, prolonging the effect of their implementation while reducing the cost of repairs and the consumption of expensive reagents.

The problem is solved by using a plugging composition for repair and insulation work in a well containing Silor silicone fluid.

New is that the composition additionally contains natural bitumen and wood flour with the following ratios of components, wt.%:

Natural bitumen 23.5-42.4 Silicone fluid "Silor" 1.8-4.5 Wood flour 0.5-5.0 Technical water 55.3-67.0

Natural bitumen is produced in deposits of high viscosity oils and bitumen by various methods, for example, gas-vapor, steam-thermal, in-situ combustion, etc. Natural bitumen is a complex mixture of hydrocarbons, it also contains resinous-asphaltene fractions that have the properties of surface-active substances. As a part, for example, natural bitumen of the Mordovo-Karmal deposit (Republic of Tatarstan) can be used. At a temperature of 20 ° C, the dynamic viscosity of bitumen from the natural Mordovo-Karmal deposit varies from 360-370 mPa · s for the Southern dome of the field, to 1340-4200 mPa · s for the Northern dome of the field. The bitumen density of the natural Mordovo-Karmal deposit varies from 935-937 kg / m for the Southern dome of the field, to 947-949 kg / m ³ for the Northern dome of the field. The mass fraction of bitumen asphaltenes of the natural Mordovo-Karmal deposit varies from 2.7 wt.%, For the Northern dome of the deposit, to 6.6 wt.%, For the Southern dome of the deposit.

Silor silicone fluid, manufactured in accordance with TU 2229-052-05766761-2003, is obtained by chemical degradation of silicone vulcanizates. Silor silicone fluid contains a mixture of oligomeric ethoxysilanes and solid products, including active and inactive fillers, pigments, modifiers and other ingredients of rubber compounds and sealing materials.

Wood flour according to GOST 16361-87 is a fibrous, water-swellable natural material obtained by mechanical grinding of wood.

As technical water, water can be used with a density of 1000 kg / m ³ to 1190 kg / m ³ , for example, mineralized reservoir water contained in the aquifers of oil and gas fields, waste water, and also aqueous solutions of salts, for example calcium chloride.

Tampon composition is prepared as follows. Silor silicone fluid is initially introduced into natural bitumen, mixed with a mechanical stirrer at 700 rpm until a homogeneous mixture is obtained. Then, wood flour is introduced into the resulting mixture with constant stirring in small portions. Next, technical water is added and intensively mixed until an inverse emulsion is obtained with the viscosity necessary for repair and insulation works. The increase in time and intensity of mixing contributes to the emulsion with a higher viscosity. The required value of the viscosity of the emulsion for repair and insulation works is determined depending on the geological and technical conditions at the well to be repaired.

The obtained reverse emulsion contains natural bitumen with wood flour as a dispersion medium, and industrial water as a dispersed phase. Silor silicone fluid is introduced into natural bitumen as an emulsifier and stabilizer.

The effect of limiting the flow of water from the use of the proposed plugging composition in the initial period after injection into the insulated formation is achieved due to the high viscosity of the inverse emulsion. In a later period of time, the wood flour contained in the emulsion swells upon contact with technical water and reinforces the waterproofing screen from the emulsion in the formation throughout the volume, which creates an additional plugging effect. Even after the separation of the highly viscous emulsion in the formation after the time of its stability, the effect of the use of the composition for repair and insulation works remains for a long time due to the plugging effect created by the technical wood flour swollen in water.

Unlike the oil contained in the prototype, the proposed composition contains natural bitumen. In natural bitumen, the content of tar-asphaltene fractions with the properties of surface-active substances is greater than in oil. The simultaneous use of the emulsifying properties of Silor silicone fluid and the emulsifying properties of resinous asphaltene fractions of natural bitumen allows to increase the viscosity of the emulsion. The higher, in comparison with oil, content in the used natural bitumen of resinous-asphaltene fractions having the properties of surfactants also provides higher stability of the emulsion. In addition, in the proposed composition, in contrast to the prototype, the expensive Silor silicone fluid is used only as an emulsifier and emulsion stabilizer and is not used as the main component of the grouting composition reinforcing the waterproofing screen from the emulsion in the formation, which reduces the cost of repair insulation work.

A generally accepted criterion for the stability of hydrophobic emulsions is electrical stability, measured on an IGER-1 device according to TU 39-156-76. The table compares the electrical stability of the proposed plug composition with the electrical stability of the composition used in the method of the prototype. From the data given in the table, it follows that the electrical stability of the proposed composition is 20-30% higher than that of the prototype. Higher stability of the proposed plugging composition provides a longer effect from the repair and insulation work.

In order to confirm the possibility of using the proposed plugging composition for repair and insulation works, model tests were carried out. Insulating ability tests were carried out on reservoir models 30 cm long and 2.7 cm in internal diameter, filled with 0.2-0.3 mm fractions of quartz sand, which allow simulating the injection of reagents into the formation and continuously monitoring their flow rate according to the scheme: well-reservoir ”and“ reservoir-well ”. Initially, water was pumped through reservoir models filled with quartz sand, its flow rate was measured, and the initial permeability of the models was determined using the Darcy formula. Next, the proposed plugging composition or the composition used in the method according to the prototype in an amount equal to the pore volume of the reservoir model was pumped into the reservoir model. The model was left for 36 hours in order to structure the emulsion. After this, water was pumped, the permeability was determined by the Darcy formula, and the insulation coefficient was calculated after 2 days, 6 months, 1 year and 1.5 years, which characterizes the degree of clogging of pores, a decrease in the permeability of the model, and is a measure of the effectiveness of the insulation work. studies of the waterproofing ability of the proposed plugging composition and the composition used in the method according to the prototype, from which it follows that when used in the claimed composition of 5 wt.%, organosilicon silo emulsion forms a very viscous emulsion, which is unsuitable for use in repair and insulation works due to the impossibility of pumping it with a cementing unit pump, and when using 1.4 wt.%, Silor silicone fluid, the emulsion is not formed, resulting in optimal are compositions 2-5.

The results presented in the table indicate that after 1 year the insulation coefficient when using the claimed plugging composition is higher than the insulation coefficient than when using the composition used in the prototype method, after 1.5 years the claimed composition retains its plugging properties, while the composition according to the prototype is stratified and becomes unsuitable for insulation work. Thus, it is obvious that the claimed composition for the duration of the effect exceeds the composition used in the prototype, and can be successfully used for repair and insulation works.

An example of the preparation of a plugging composition in laboratory conditions. 310.9 g (33 wt.%) Of natural bitumen of the Mordovo-Karmalskoye deposit and 36 g (3.6 wt.%) Of an organosilicon liquid Silor were mixed in a 1000 ml glass beaker with a mechanical stirrer at a speed of 700 rpm for 5 minutes ". 10 g (1 wt.%) Of wood flour was poured into the resulting solution and stirring was continued for 15 minutes, then 643.1 g (62.4 wt.%) Of produced water with a density of 1180 kg / m was added and mixed for 30 minutes. The electrical stability of the emulsion obtained, measured on the IHER-1 device, was 220 V. The electrical stability measurements are presented in the table.

In field conditions, the plugging composition is prepared in special stationary installations for the preparation of hydrophobic emulsions, or directly at the well using cementing aggregates CA-320M, containers and dispersant. Natural bitumen and Silor organosilicon fluid are collected in a container, mixed with a pump of a cementing unit until a homogeneous mixture is obtained. Then, wood flour is introduced into the container with constant stirring in small portions. Then, one cementing unit takes a mixture of natural bitumen, Silor silicone fluid and wood flour from the tank and feeds it into the dispersant. At the same time, the second cementing unit supplies technical water to the dispersant. From the dispersant, the emulsion obtained is again fed into the container. Next, one cementing unit takes the emulsion from the bottom of the tank and re-feeds it into the dispersant. At the same time, the second cementing unit selects the emulsion from the upper part of the tank and delivers it to the dispersant. Mixing continues until an emulsion with the viscosity necessary for repair and insulation works is obtained. The principle of preparation of the emulsion and the design of the dispersant are well known and described in the literature [patent RU No. 2304711, IPC EV 43/27. Publ. 08/20/2007, patent RU No. 2143539, IPC ЕВВ 21/06. Publ. December 27, 1999].

Thus, in this proposal, the result is achieved - increasing the insulating ability of the composition for repair and insulation works, prolonging the effect of their implementation while reducing the cost of repairs and the consumption of expensive reagents.

The extension of the effect of repair and insulation works is achieved by increasing the stability of the proposed plugging composition and preserving the plugging properties of the latter even after the separation of the highly viscous emulsion in the formation after the time of its stability due to the plugging effect created by the wood flour swollen in water. Reducing the cost of repair and insulation work is achieved by reducing the content in the plug composition of the expensive silicone fluid "Silor". The decrease in the content of the expensive Silor silicone fluid in the plugging composition is, in turn, achieved by eliminating the use of cement composition reinforcing the waterproofing screen from the emulsion in the formation, the main component of which is the Silor silicone fluid.

Claims (1)

Swab composition for repair and insulation works in the well, containing Silor silicone fluid and water, characterized in that the composition additionally contains natural bitumen and wood flour in the following ratios of components, wt.%:
Natural bitumen 23.5-42.4 Silicone fluid "Silor" 1.8-4.5 Wood flour 0.5-5.0 Technical water 55.3-67.0