RU70932U1 - WELL RESEARCH DEVICE - Google Patents

Abstract

The device is designed to control the technical condition of wells using radon. The device ensures delivery of the container to any point of the well, uniform distribution of radon solution in the studied interval of the well, the formation of sharp boundaries of the radioactive column, does not contaminate the wellhead with radioactive isotopes. The operation of the device is not limited to the temperature regime of the well. The use of the inventive device improves the efficiency (quality) of well research. The device for researching a well comprises a container 1 made in the form of a cylindrical body with a perforated side surface 2, an electromagnetic pump 3, an elastic tight capsule 4, a cable sleeve 5, a control unit for the depressurization mechanism 6, an electric wireline cable 7, a cable end 8. FIG. 1

Description

The utility model relates to geophysical devices for researching wells and is intended to control the technical condition of wells using a radioactive isotope, for example, radon.

A device is known for delivering a radon indicator to a well, which is a measured capacity (see RF patent No. 2248444). However, this device does not provide an even distribution of the contents along the wellbore. Radon settles on the walls of the well, partially absorbed by the organic components of the oil, pollutes the wellhead, which leads to significant measurement errors, and reduces the effectiveness of research.

The closest technical solution, taken as a prototype, is a device that serves to determine the intercolumn and interstratal flows in the well (see RF patent No. 20111813). The device comprises a container made in the form of a cylindrical body with a perforated side surface, a sealed capsule with a radioactive isotope placed in it, and a depressurization mechanism.

The known device has the following disadvantages:

- it cannot be used when the temperature of the well fluid is below 60 ° C;

- it cannot be used if the exact coordinates of the defect are unknown.

The objective of the proposed technical solution is the delivery of indicator fluid to anywhere in the well, the uniform distribution of the indicator fluid with clear boundaries along the wellbore in a given interval of the study.

This object is achieved in that in the device for the study of the well, containing a container made in the form of a cylindrical body with a perforated side surface, a sealed capsule with a radioactive isotope and a depressurization mechanism, an additional logging cable, a depressurization mechanism control unit are added, and

The depressurization mechanism includes an electromagnetic pump and an internal capsule made of an elastic material.

Figure 1 presents a diagram of the proposed device. A device for researching a well comprises a container 1 made in the form of a cylindrical body with a perforated side surface 2, an electromagnetic pump 3 installed therein, an elastic tight capsule 4 and a cable sleeve 5, a depressurization mechanism control unit 6 connected by an electric wireline cable 7 via a cable end 8 with cable gland 5.

The device operates as follows. The filling of the capsule with a radioactive isotope is carried out in the following sequence. The electromagnetic pump 3, structurally combined with the cable sleeve 5, is turned out of the cylindrical body 1. After installing the cylindrical body 1 with the filler neck vertically upward, pour radon solution into the elastic capsule 4, connect the elastic capsule 4 with the electromagnetic pump 3. Connect the cable sleeve 5 to the cable end 8 logging cable 7, connecting an electrically electromagnetic pump 3 to the control unit 6 of the depressurization mechanism. Lower the container 1 into the well to a predetermined depth and hang it. Simultaneously with the beginning of the movement of the container 1 along the wellbore at a constant speed, power is supplied from the control unit 6 to the electromagnetic pump 3. The electromagnetic pump 3 of the depressurization mechanism starts pumping the radon solution from the elastic capsule 4 into the well, while the borehole fluid enters through the perforations of the cylindrical body 1 into the space between the cylindrical body 1 and the sealed elastic capsule 4. This process equalizes the hydrostatic pressure of the radon liquid in utri device and external pressure downhole environment, providing an electromagnetic pump 3 and constancy of performance even distribution of radon solution along the borehole. After displacing the radon solution from the capsule 4 in a predetermined interval of the well, the power is turned off and the container 1 is removed to the surface. Disconnect the container 1 from the wireline 7.

Next, gamma - ray logging is carried out, followed by analysis of the measurement results.

Using the inventive device ensures the delivery of the container to any point in the well, uniform distribution of radon solution in the studied interval of the well; when the device is lowered into the well and removed from the wellhead, the depressurization mechanism is not activated, as a result of which the wellhead is not contaminated with radioactive isotopes. The operation of the device is not limited to the temperature regime of the well. The use of the inventive device improves the efficiency (quality) of well research, increases the circle of the studied wells.

Claims (1)

A device for researching a well, comprising a container made in the form of a cylindrical body with a perforated side surface, a sealed capsule with a radioactive isotope and a depressurization mechanism, characterized in that an additional electrical logging cable and a depressurization control unit are introduced, and the depressurization mechanism includes an electromagnetic pump and an internal capsule made of elastic material.