RU2145379C1 - Method of selective water shutoff in well - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: method includes injection into bottom-hole formation zone of freshly prepared water-retaining composition. Prior to injection of the composition, additionally injected is aqueous solution containing polymer of acrylic series and mud powder in the following ratio of components, mas.%: polymer of acrylic series, 0.03-0.5; bentonite mud powder, 1.0-10.0; water, the balance. EFFECT: higher efficiency of water shutoff by increased stability and strength of produced water shutoff barrier. 1 tbl

Description

 The invention relates to oil and gas production, in particular to the isolation of highly permeable formation intervals in production and injection wells.

 Closest to the proposed invention is a method for the selective isolation of water inflows in a well, including the injection of freshly prepared WCS into the formation [1].

 The known method has a low efficiency associated with the low resistance of the injected WUS to the effects of formation water and the rapid washing out of the WUS, and from the bottomhole zone, which reduces the quality of repair and insulation works. Therefore, there is a need to develop a method for isolating water inflows in a well devoid of this drawback while maintaining a high insulating ability and the strength of the created barrier. This problem can be solved by using the invention.

 The aim of the invention is to increase the efficiency and strength of the created insulation barrier.

 The goal is achieved by the fact that in the method, which includes the injection into the bottom-hole zone of a freshly prepared VUS before the injection of the VUS, an aqueous solution is additionally pumped into the well containing an acrylic polymer and clay powder at the following content, wt.%: Polymer acrylic series - 0.03-0.5; clay powder - 1-10; water is the rest.

 The preliminary injection of an aqueous solution containing an acrylic polymer and clay powder leads to the creation of a stable polymer dispersion barrier in the highly permeable bottomhole interval due to the swelling of the clay powder pumped into the aqueous polymer solution. In this case, clay swelling present in the polymer solution occurs only in reservoir conditions when in contact with the reservoir water, which leads to a sharp decrease in the permeability of the pore space of the bottomhole zone, thereby preventing the washing of subsequently injected HCF through interstitial flows or flows inside the isolated object.

 As the polymer of the acrylic series, polyacrylamide, hypane, Ionomer-VO-65, etc. can be used.

 The method was tested in laboratory conditions. During the experiments, the plugging ability in artificial samples of a water-saturated sandy porous medium with a diameter of 0.04 m and a length of 1.0 m was determined. During the experiment, the models were pumped sequentially: an aqueous solution containing polyacrylamide and clay powder in various percentages and freshly prepared WCS. The total volume of reagent solutions did not exceed 0.3 pore volume of the formation. Then, tap water was again fed to the model inlet. Evaluation of the effect was carried out by changing the flow rate of the filtered fluid. Similar experiments were also conducted for the prototype. As can be seen from the above data (see table), the application of the method leads to a significant reduction in the flow rate of the filtered fluid. The comparison shows that in the case of using the method of the prototype, with an increase in pressure drop ΔP, a gradual increase in fluid flow occurs. Thus, the experimental results indicate a higher plugging ability of the proposed method.

 The process at the well is carried out in the following sequence. They raise underground equipment, examine the state of the bottom of the well, and in the presence of a sand plug, rinse. After determining the depth of the face, the static level of the liquid, the absorption capacity, tubing pipes (tubing) are lowered into the well. The wellhead is connected to a pump unit (for example, CA-320). They pressurize the discharge line to the maximum allowable pressure value in accordance with the technical characteristics of the production string.

 An aqueous solution of polyacrylamide with the addition of bentonite clay powder and a freshly prepared WUS solution are successively pumped into the well. After selling the reagents to the bottom-hole zone of the well, the water is left at rest for 20 hours. The barrier formed during the swelling of the clay powder prevents the washing out of the bottomhole zone by the flow of filtering fluid that has formed in the reservoir conditions of the WCS from the bottomhole zone. Thus, a blocking swab forms in the aquifer.

 The proposed invention differs significantly from the existing ones in that the stability and strength of the insulation barrier created by the WCL increases.

 The effect of the application of this method is achieved due to the selectivity of blocking the highly permeable interval and increase the stability and strength of the created insulation barrier. This provides an increase in oil production and an increase in the well overhaul period.

Sources of information
1. Ametov I.M., Sherstnev N.M. The use of composite systems in technological operations of well operations. -M .: Nedra, 1989, p. 135-136.

Claims (1)

The method of selective isolation of water inflows in the well, including the injection of freshly prepared VUS into the bottomhole zone, characterized in that before the VUS injection, an aqueous solution containing an acrylic polymer and clay powder is pumped into the well at the following content, wt.%:
Acrylic polymer - 0.03 - 0.5
Clay powder - 1 - 10
Water - Else

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