SU1682540A1 - Method for completion of oil wells - Google Patents

Abstract

The invention relates to the oil industry, namely to the development of oil wells. The purpose of the invention is to increase the efficiency of development of wells, productive formations of which are represented by poorly cemented rocks. Air is injected into the space between the tubing (tubing) and the casing and is forced into the casing. Then, pressure is discharged between the tubing and the casing at a speed of 2-2.5 MPa / h. At the end of the reset process, a hydraulic shock is made to the bottom of the well by a rotating flow of fluid falling from the tubing. 5 ill., 1 tab.

Description

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The invention relates to the oil industry, in particular to the development of oil wells.

The aim of the invention is to increase the efficiency of development of wells, productive formations of which are represented by weakly cemented rocks.

Figure 1 shows a diagram of the implementation of the method; Fig. 2 is a diagram of a decrease in the level of a liquid after injection of air into the annular space; in FIG. 3 - the same, the air in the annulus is pushed aside with sales liquid; 4 is the same, the position of the fluid in the tubing and tubing after the discharge pressure in the tubing; Fig 5 - the same, after the discharge of fluid from the tubing to the bottom of a well.

The scheme of implementation of the method includes casing 1, tubing 2, connecting pipe 3, valves 4-9, pipelines 10-12, compressor 13, cementing unit TsA-320 14, rotator 15 fluid flow installed in N 2, the reservoir 16 and perforation zone 17. A pressure gauge 18 is installed in line 3.

The development of the well by the proposed method is carried out as follows.

In the well before the start of work there is a certain level of liquid 19.

Compressor 13 in the annular space create an air cushion pressure of 8-10 MPa. At the same time, valves 6, 7 and 9 are open, and valves 4.5 and 8 are closed. The air displaced by air from the annulus through tubing 2 through the valve 9 is fed into the barn or into the tank (not shown). By pumping, for example, 20 m3 of water into the annular space of cement 00

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The same unit 14 displaces the same amount of liquid from the tubing 2. At the same time, valves 6, 4 and 8 are closed. Discharge the liquid from the annulus through the pipe 10 into the tank. The valve 7 regulates the rate of pressure drop in the range of 2-2.5 MPa / h. The change in pressure is controlled by a pressure gauge 18. At the same time, the valve 4 is open and the valves 6,5,8 and 9 are closed.

The air spout is conducted gradually at a rate of pressure drop in the range of 2-2.5 MPa / h. The adjustment is carried out by the valve 4. This ensures the smoothness of the depression on the formation 16, i.e. an increase in pressure drop across the bottomhole zone 17 of the formation 16. As the air is released, the well is filled with contamination products (sludge, solution filtrate, etc.), the bottomhole zone is cleaned with formation fluid.

After dilution of the annular space (pressure equal to atmospheric), additional drainage of reservoir 16 is performed and the bottom is cleaned: the valve 9 is opened and the liquid column in tubing 2 is opened, the passage through the rotator 15 of the flow falls to the bottom of the well. This creates a rotating stream that carries the sludge with it.

Intensive mixing (dilution) of contamination products with water occurs. A pulp is formed in the perforation zone 17. The first cycle is over. Immediately after the last operation, all operations are repeated, i.e. perform the second cycle. The cycles are repeated 3–4 times. When oil appears, it is directed to the collector by opening the valve 8. Work is stopped if the compressor 13 does not press air more than 5 MPa. The results of statistical data processing are given in the table, and the duration

Well development also depends on the volume (50-200 ig) of the fluid absorbed by the reservoir.

As follows from the data in the table, the duration of the development of the well by the proposed method is significantly less than the known one.

Thus, in comparison with the known, smooth pressure decrease in the annular space (at a speed of 2-2.5

MPa), the drainage of the reservoir and the impact on the bottom of a well by a rotating fluid flow after each cycle, allows to increase the cleaning efficiency of the near-abnormal zone and ultimately reduce the time of completion of the well.

Claims (1)

The invention method of development of oil wells, including the injection of air into the space between the tubing and casing, the displacement of its fluid and pressure relief in the annular space, characterized in that, in order to improve the development of wells, productive formations are represented by weakly cemented rocks , the pressure is released smoothly at a speed of 2-2.5 MPa / h, and at the end of the dumping process a hydraulic shock is produced at the bottom of the well by a rotating flow falling s of tubing fluid. In amuar 1682B40 if. 10 C Fig. /