RU2114297C1 - Method for treating bottom-hole zone of producing well - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: according to method, pressure-forced into bottom-hole zone of well is water-in-oil emulsion. Metallic magnesium is introduced into perforation interval. Solution of muriatic acid is pumped-through and pressure-pushed into oil bed at gradual reduction of pushing-through pressure. After that, well is washed-through with hot oil. Application of aforesaid method ensures levelling of permeability in low-permeable and high-permeable zones. EFFECT: higher efficiency.

Description

 The invention relates to the oil industry and can be used in the treatment of the bottom-hole zone of a producing well.

 A known method of processing the bottom-hole zone of a well, comprising injecting an oil emulsion and an acid solution [1].

 The known method is not effective enough and does not significantly align the permeability of the intervals of the formation and increase the permeability of low permeability layers.

 Closest to the invention in technical essence is a method of processing the bottom-hole zone of the well, comprising placing in the interval of perforation of metallic magnesium and pumping a solution of hydrochloric acid through it [2].

 The known method leads to an increase in well productivity by increasing the permeability of highly permeable zones, however, it does not equalize the absorption profile of the well, does not allow to isolate washed zones, and therefore, does not allow to draw low-permeability zones into the development.

 The invention solves the problem of aligning the absorption profile of the injection well, i.e. alignment of the permeability of low and high permeability zones.

 The problem is solved in that in the method for processing the bottom-hole zone of a producing well, comprising placing in the interval of perforation of metallic magnesium and selling a solution of hydrochloric acid, according to the invention, before placing in the interval of perforation of metallic magnesium and pushing a solution of hydrochloric acid into the bottom-hole zone of a well, reverse oil emulsion is pressed, the ratio between a solution of hydrochloric acid and magnesium is set higher than the stoichiometric, the hydrochloric acid solution is driven through with a gradual decrease selling pressure, then washed the well with hot oil.

 During production, oil flows mainly from highly permeable intervals of the reservoir. As they develop, flooding of extractive products occurs. The task of aligning the injectivity profile of the producing well is solved in this invention.

 Inverse oil emulsion is pumped into the well, which, due to its high viscosity, enters mainly in highly permeable washed intervals. The pores of the highly permeable zone of the reservoir are colmatized. As a result, the permeability of the highly permeable zone is reduced. A container of magnesium is placed at the bottom of the well. When an acid solution passes through magnesium particles, a magnesium chloride formation reaction occurs, accompanied by the release of a large amount of heat and heating of the acid solution. The ratio between the hydrochloric acid solution and magnesium is used above the stoichiometric. When a heated acid solution is sold due to its high mobility and due to the fact that the highly permeable zones are mainly filled with a polyacrylamide solution, the acid solution penetrates the low-permeability oil-saturated zones, destroys the clogging elements there, reacts with the rock, forming new and expanding existing pore channels. As a result, the permeability of low-permeability zones increases, the well injectivity profile is leveled. Selling a solution of hydrochloric acid is carried out with a gradual decrease in selling pressure. At the same time, a more uniform coverage by low-permeability zones of the formation is achieved. Flushing the well with hot oil helps to remove heated and molten clogging compounds and contaminants from the well and contributes to a more complete cleaning of the well.

The method is as follows. Reverse oil emulsion is pushed into the bottomhole zone of the well. Magnesium metal is placed in the perforation interval. To do this, at the end of the tubing string lowered into the well, a container with granules of metallic magnesium is placed. To undergo a reaction between a solution of hydrochloric acid and magnesium and heat up a solution of hydrochloric acid, a solution of hydrochloric acid is pumped through a tubing string. They sell the heated hydrochloric acid solution while gradually lowering the selling pressure. After that, the well is washed with hot oil with a temperature of 80-120 ^o C in a volume not less than the volume of the well. Raise the tubing string with the container, lower the tubing string with the pump and put the well into operation.

 A solution of hydrochloric acid is used in a larger volume than with a stoichiometric ratio of acid and magnesium. In this case, part of the acid is spent on the reaction with magnesium, and the heated part of the acid is used to treat the bottom-hole zone of the well. The hydrochloric acid solution may contain hydrofluoric acid.

 A mixture of oil, water and an emulsifier in a ratio of 40: 59: 1 is used as a reverse oil emulsion.

Example. The bottom-hole zone of the producing well is processed at a depth of 1150 m. The bottom hole emulsion is pumped into the well and the reverse oil emulsion is pushed into the bottom-hole zone in a volume of 15 m ³ . A column of tubing with a container containing granular magnesium in the amount of 50 kg is lowered to the bottom of the well. A solution of hydrochloric acid is pumped through a tubing string with a container. A reaction occurs between magnesium and acid with heating of excess acid. A heated solution of hydrochloric acid in a volume of 16 m ^{3 is} forced into the bottomhole zone at an initial pressure of 8 MPa and a final pressure of 6 MPa at the wellhead. The well is washed with oil at a temperature of 100 ^{° C.} in a volume of 50 m ³ (well volume is 20 m ³ ).

 Take a profile of the influx. Tests show that before treatment, oil came from 60% of the reservoir, after treatment from 80%. The water cut of mined products decreased by 16%.

 The application of the method will improve the efficiency of processing the bottom-hole zone of the well, align the profile of the inflow and involve previously uninvolved reserves of the reservoir in the development.

Sources of information
1. RF patent N 2004783, cl. E 21 B 43/27, 1993.

 2. USSR author's certificate N 1657628, cl. E 21 B 43/24, 1991.

Claims (1)

 1. The method of processing the bottom-hole zone of the producing well, comprising placing in the interval of perforation of metallic magnesium and selling a solution of hydrochloric acid, characterized in that before placing in the interval of perforation of metallic magnesium and pushing a solution of hydrochloric acid into the bottom-hole zone of the well, an inverse oil emulsion is pressed, the ratio between the solution hydrochloric acid and magnesium are set higher than the stoichiometric, the hydrochloric acid solution is sold through a gradual decrease in the selling pressure, then romyvayut well with hot oil.