RU2079646C1 - Method of limitation of water influx to well - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: the offered method includes injection of polymer solution, injection of isolating composition in form of foam with subsequent injection of magnetically active suspension and lowering of magnet to the level of bottom-hole zone of formation water-bearing part. EFFECT: higher strength of water shutoff barrier due to its fixation in bottom-hole zone of water-bearing part of formation by the fringe of magnetically active suspension that manifests itself in increase of pressure gradient of restoration of filtration. 2 tbl

Description

 The invention relates to the oil industry, in particular, to methods for limiting the influx of formation water into wells.

 There is a method of isolating the influx of formation water into the well by pumping granular magnesium with water into it, which interact with each other to form insoluble magnesium hydroxide (ed. Certificate of the USSR N 960424, class E 21 B 43/22, 1987, BI N 35) .

 However, this method does not take into account the fact that the surface of the magnesium granules is coated with an oxide shell, which significantly reduces the rate of hydrolysis of magnesium in water, which leads to an increase in the duration of the formation of clogging sludge, and therefore, long-term shutdown of the well.

 For the prototype, we adopted a method for autosvid. USSR N 956769, class E 21 B 43/32.

 This is a method of limiting the flow of water into the well by injecting foam into the formation, which involves pre-treating the formation with an aqueous solution of the sodium hydrophobizer reagent of an alkyl arylsulfonic acid salt. Before processing the formation, sodium sulfide in an amount of 0.5-1 weight is added to the aqueous solution of the sodium salt of alkylaryl sulfonic acid.

 The disadvantage of the prototype, as well as other methods based on the use of foam and polymer systems, is that they do not block, at least for a while, perforations in the aquifer of the collector. In other words, the perforations through which they are pumped into the bottomhole formation zone are the same holes through which they are then carried away. This leads to low efficiency of the created water-insulating rims, and the rim itself is characterized by low strength.

 The objective of the invention is to provide a method for limiting the flow of water into the well, which allows to increase the strength of the waterproofing barrier by fixing it in the bottom-hole zone of the aquifer of the formation with the rim of the magnetically active suspension, which is manifested in an increase in the pressure gradient of the resumption of filtration.

 To do this, in the method of limiting the flow of water into the well by injecting an insulating composition in the form of foam into the formation, a polymer solution is injected into the formation before injection into the formation, and after injection of the insulating composition in the form of foam into the formation, a magnetically active suspension is injected and the magnet is simultaneously lowered into the well to the level of the bottom-hole zone of the aquifer.

 Table 1 shows a comparative analysis of the proposed solutions and prototypes.

 A comparative analysis shows that a common feature of the proposed solution and prototype is the injection of an insulating composition in the form of foam.

 In the inventive method, the water-insulating barrier is created by injecting the polymer and the insulating composition in the form of foam and is fixed by the rim of the magnetoactive suspension created in the bottom-hole zone of the aquifer of the formation by the magnetic field of a magnet lowered into the well. This allows you to firmly hold the fringe of the foam in the bottomhole zone of the aquifer of the reservoir, thereby increasing the strength of the waterproofing barrier.

 Ways to limit the flow of water into the well by injecting polymer or foam are known, but they do not preclude the possibility of removing the fringe of the foam from the formation.

 The method is implemented as follows.

 At the mouth of the producing well in containers, a polymer solution, an insulating solution in the form of foam and a magnetoactive suspension are prepared. The wellhead is tied and the polymer solution, an insulating composition in the form of foam and magnetoactive fluid, is sequentially injected. At the same time as the latter is injected into the well, a magnet is lowered and a magnetic field is applied to the bottom-hole zone of the aquifer of the formation. Let the well into operation. The formed water barrier in the aquifer of the reservoir, at the site of exposure to the magnet, firmly holds the foam rim, effectively limiting the flow of water into the well. In the oil part of the reservoir, which was not exposed to a magnetic field, the strength of the insulating structure is small, and it is easily carried away from the reservoir.

 Through a reservoir model, the length of which is 0.46 m, the width is 0.008 m, the thickness is 0.06 m, water is filtered.

 Then, a polymer solution (0.1% solution of polyacrylamide in water) is injected into the reservoir model sequentially; insulating composition in the form of foam (2% solution of DS-RAS) and magnetoactive liquid (suspension of magnetite in water).

Industrial surfactant DS-RAS is a viscous, water-soluble mass from yellow to light brown in density 4 ²⁰ = 1.16. In addition to the main substance (45%) and the solvent, it contains non-sulfonated compounds (1%), sodium sulfate (5%) and sodium carbonate (3%). It has a high foaming and wetting ability. (See GZ Ibragimov, NI Khismatudinov. A reference guide on the use of chemicals in oil production. M.-Nedra, 1983, p. 78).

 The amount of reagents is indicated in the table.

 Simultaneously with the injection of a magnetic fluid into the reservoir model, a magnet is installed at the outlet of the model, the filtration is resumed and the filtration resumption pressure gradient is determined at the installation to determine the ultimate shear stress of the insulation structure developed at Ukrgiproniineft. (See BIB. Index VINITI- "Deposited Scientific Works", 1989, N 12, p. 125).

 The method is carried out in the same way, using as a polymer an 8% aqueous solution of condensed sulphate of alcohol stillage; as a foaming composition, a 1.5% solution of CMC 600 (carboxymethyl cellulose); as a magnetoactive liquid, a suspension of magnetite in water.

 The research results are shown in table 2. For comparison, it also provides data on the prototype method.

 As can be seen from the table, according to the proposed method, the pressure gradient at which the filtration resumes in the reservoir model, is 3.5 times higher than the prototype method, which indicates a 3.5 times increase in the strength of the waterproofing structure due to the creation of a rim of magnetite suspension in water.

 Thus, the proposed method in comparison with the prototype is distinguished by technological simplicity and high efficiency of its implementation. Its use in the practice of oil production will increase the strength of waterproofing barriers by eliminating the removal of the foam rim from the formation, and thereby significantly increase the success of waterproofing work.

Claims (1)

 A method of limiting the flow of water into the well by injecting an insulating composition in the form of foam into the formation, characterized in that before injecting the insulating composition in the form of foam into the formation, a polymer solution is injected, and after injection of the insulating composition in the form of foam into the formation, a magnetic suspension is injected and simultaneously with injection the latter is lowered into the well at the level of the bottom-hole zone of the aquifer of the formation.

Images