RU197560U1 - MICRO GAMMA GAMMA LOGGING DEVICE - Google Patents

Abstract

The utility model relates to the geophysical technique and can be used to measure soil density by radiometry - micro gamma-gamma-ray logging. It allows you to measure soil density in shallow boreholes of the surface of the section using the albedo method, which consists in detecting and recording the flux density of gamma-quanta scattered on the electrons of atoms of matter in the interaction of the energy flux of primary gamma radiation with soil material. The essence of the proposed utility model: a micro gamma-gamma-ray logging tool, which contains a housing, a source holder located therein for installing a gamma-ray source, a protective screen in the casing, tightened by a nut, a gamma-ray detector including a photoelectron multiplier and a crystal, an electronic unit, installed on the chassis and instrument head. According to a utility model, the micro gamma-gamma-ray logging tool also contains a damping spring for a photomultiplier, a connector for connecting a power cable and transmitting information. Due to the fact that the studied wells have a shallow depth and tripping is carried out in manual mode, the device contains a suspension plate with a suspension axis, a measuring ruler consisting of hinged links on which holes for a fixing rod are made after 0.1 m. The device is small-sized, the diameter of the device is as close as possible to the inside diameter of the well for reliable contact of the measuring transducer with the walls of the well (casing), using an in-depth measurement scheme, in which the measuring transducer with an ionizing radiation source is placed in a common well at its center with the possibility of density measurement in radius up to 100-250 mm and automatic recording of received data to the recorder. The connections are sealed with sealing elements. 1 ill.

Description

The utility model relates to geophysical engineering and can be used to measure soil density by radiometry - micro gamma-gamma-ray logging.

Allows you to measure the density of the soil in shallow holes in the surface of the section using the albedo method, which consists in detecting and recording the flux density of gamma rays scattered by the electrons of the atoms of a substance during the interaction of the energy flux of primary gamma radiation with the soil material. Currently existing gamma-gamma-ray logging equipment is designed for research in deep wells. Logging probes available on the market for geophysical equipment are large and cannot be placed in shallow holes to measure the density of the surface of the section. In this regard, we proposed a small-sized micro gamma-gamma-ray logging tool using an in-depth measurement scheme, in which a measuring transducer with an ionizing radiation source is placed in a common well in its center to measure density in a radius of 100-250 mm.

A well-known density logging tool, (analog) (1), RF patent No. 2105331 G01V 5/12, application filing date 16.08.1993, published 02.20.1998, containing a security housing in which a gamma radiation source, two gamma radiation detectors are located , a protective screen with collimation holes opposite the source and the detectors, an electronic unit for generating, accumulating and transmitting the readings of detectors via a geophysical cable to the surface to the recording equipment, a controllable device for pressing devices made in the form of a main lever equipped with a drive including an electric motor, gearbox and spring, providing a force sufficient to press the device from the collimation holes to one of the walls of the well. The disadvantages are the complexity of the design, the body is made integral with the possibility of a fixed axial and angular displacement of one part relative to the other, the distance between the sources and detectors is selected from a number of numbers, the device is large and cannot be placed in shallow holes for measuring the density of the surface part of the section.

A well-known gamma-gamma-ray logging device, (analog) (2), RF patent No. 2611591, application filing date 02.12.2015, published 02.28.2017, which contains a cylindrical security case, a cylindrical screen coaxial with the security case and containing collimating holes, located opposite the source of gamma rays and gamma detectors, the source of gamma rays, gamma detectors of small and large probes are arranged sequentially along the axis of the security case inside the cylindrical screen, and the small probe includes one gamma detector, coaxial with the security case and located at a distance of L1≈20 cm from the source of gamma quanta, and the large probe includes six gamma detectors, similar to the detector of a small probe and located on the same side from the source of gamma quanta as the detector of a small probe, uniformly in the cross section of the guard case, at a distance L2 = 2⋅L1 along the axis of the security case from the source of gamma rays, while the device contains an additional probe, including six or more gamma detectors, similar to a small probe detector and located in the screen at a distance L3≥3⋅L1 along the axis of the security enclosure from the gamma-ray source on the same side of the gamma-ray source as the large probe detectors, evenly in cross section of the security enclosure. The disadvantages are the complexity of the design, the device is large and cannot be placed in shallow holes to measure the density of the surface part of the section.

A known density gamma-gamma-ray logging device, (prototype) (3), patent RU 2258944 C1 G01V 5/12, filing date 08/12/2004, published 08/20/2005, the device contains a housing in which there are two sources of gamma radiation gamma radiation detector, protective screen, electronic unit, clamping device, made in the form of a lever with an elastic drive to one of the walls of the well. Gamma-ray detectors and an electronic unit are located in the thermostat. On the side of the collimation openings of the housing, an additional lever is located, in the leading arm of which an elastic element is installed. Both levers are equipped with nodes measuring the distances from the walls of the well to the wall of the device from the collimation holes. The disadvantages are the design complexity, the device is large and cannot be placed in shallow holes to measure the density of the surface part of the section.

The technical problem solved by the proposed utility model is the creation of a small-sized micro gamma-gamma-ray logging tool for placement in shallow holes in order to measure the density of the near-surface part of the section. The purpose of the proposed utility model is achieved by the fact that the micro gamma-gamma-ray logging tool contains a housing, a source holder located therein for installing a gamma-ray source, a protective screen in the casing, preloaded by a nut, a gamma-ray detector including a photoelectron multiplier and a crystal, an electronics unit, mounted on the chassis and instrument head. Due to the fact that the studied wells have a shallow depth and tripping is carried out in manual mode, the device also contains a measuring ruler consisting of articulated links, on which holes for the fixing rod are made after 0.1 m. The received data is automatically recorded on the registrar. For reliable contact of the measuring transducer with the walls of the well (casing), the diameter of the device is as close as possible to the internal diameter of the well.

The technical result achieved by the proposed utility model is solved by a micro gamma-gamma-ray logging tool, which contains a housing, a source holder located therein for installing a gamma radiation source, a protective shield in the casing, preloaded by a nut, a gamma radiation detector including a photoelectron multiplier and a crystal, an electronics unit mounted on the chassis and instrument head. According to the invention, the micro gamma-gamma-ray logging tool also contains a shock spring for a photoelectronic multiplier, a connector for connecting a power cable and transmitting information. Due to the fact that the studied wells have a small depth and tripping is carried out in manual mode, the device contains a suspension plate with a suspension axis, a measuring ruler consisting of articulated links, on which holes for a fixing rod are made after 0.1 m. The device is made small-sized, the diameter of the device is as close as possible to the inside diameter of the well for reliable contact of the measuring transducer with the walls of the well (casing), using an in-depth measurement scheme, in which the measuring transducer with an ionizing radiation source is placed in a common well at its center, with the possibility of measuring density in a radius of up to 100-250 mm and automatic recording of received data to the recorder. The joints are sealed with sealing elements. The new one is that the micro gamma-gamma-ray logging tool also contains a shock spring for a photomultiplier, a connector for connecting a power cable and transmitting information. Due to the fact that the studied wells have a shallow depth and tripping is carried out in manual mode, the device contains a suspension plate with a suspension axis, a measuring ruler consisting of hinged links on which holes for a fixing rod are made after 0.1 m. The device is made small-sized, the diameter of the device is as close as possible to the inside diameter of the well for reliable contact of the measuring transducer with the walls of the well (casing), using an in-depth measurement scheme, in which the measuring transducer with an ionizing radiation source is placed in a common well at its center, with the possibility of measuring density in a radius of up to 100-250 mm and automatic recording of received data to the recorder.

The drawing in longitudinal section shows a micro gamma-gamma-ray logging tool. The device is small-sized, the diameter of the device is as close as possible to the inner diameter of the well, and contains a housing 2 in which a source holder 1 for installing a gamma radiation source is located, a protective screen 3 in the casing 5, tightened by a nut 4, a gamma radiation detector including a photomultiplier 7 and a crystal 6, an electronics unit 11 mounted on the chassis 10 and the instrument head 9. The device also contains a damping spring 8 for the photomultiplier tube 7, a connector 12 for connecting a power cable and transmitting information. Due to the fact that the studied wells have a shallow depth and tripping is carried out in manual mode, the device also contains a suspension plate 13 with a suspension axis 14, a measuring ruler 15, consisting of hinged links 16, on which holes 17 are made through 0.1 m for the fixing rod (not shown in the drawing), the Connections are sealed with sealing elements 18. Work with the micro gamma-gamma-ray logging device is as follows. In the areas of gravimetric points (at a distance of 10 m in different directions from the measuring site), special observation wells with a depth of 1.5-2 m are equipped. The wells are cased with polypropylene pipes reinforced with fiberglass to ensure safety for several seasons. The casing of the well is plugged from below and has a removable cover on top to prevent water from entering the well. The medium inside the well is airy. For reliable contact of the measuring transducer with the walls of the well (casing), the diameter of the device is as close as possible to the internal diameter of the well. The cable from the ground-based recorder is connected to the micro gamma-gamma-ray logging tool through the connector 12 of the tool head 9. The densitometer is installed in the borehole to the required depth using a straightedge 15, consisting of hinged links 16, into the holes 17 of which a fixing rod is inserted, and the received data to the registrar. The densitometer is moved to a predetermined depth step and the received data is recorded on the recorder. To suppress interference caused by heterogeneity of soil and measurement errors of equipment, measurements in wells are carried out repeatedly, at least 3 times in each hole during one day session of density measurements at a given gravimetric point.

The proposed device was implemented in the development and production of multi-channel radioactive logging equipment “MARK-TERRA-62” and tested at the Chayandinskoye oil and gas condensate field as part of experimental and methodological work, which allows us to conclude that “Industrial applicability”. This device allows you to measure the density of the soil in shallow holes to measure the density of the surface part of the section, to increase the efficiency and reliability of the device, resulting in a technical effect, which consists in improving the quality and reliability of the information received, which ultimately leads to improved operational characteristics of the device and expand the scope of its application.

Technological and technical results when using the proposed utility model are achieved due to the possibility of measuring soil density in shallow holes in the surface of the section, increasing the efficiency and reliability of the device, resulting in a technical effect, which consists in improving the quality and reliability of the information received.

The economic effect of the use of the invention can be achieved by increasing the time between failures, accelerating installation, reducing the time of work, which can significantly save material and labor resources.

Literature:

1. RF patent No. 2105331 G01V 5/12, the filing date of the application is 08.16.1993, published on 02.20.1998.

2. RF patent No. 2611591, application filing date 02.12.2015, published 02.28.2017.

3. Patent RU 2258944 C1 G01V 5/12, filing date 08/12/2004, published 08/20/2005.

Claims (1)

A micro gamma-gamma-ray logging tool, which contains a housing, a source holder located therein for installing a gamma radiation source, a protective shield in the casing pressed by a nut, a gamma radiation detector including a photomultiplier and a crystal, an electronics unit mounted on the chassis, and an instrument a head, characterized in that the micro gamma-gamma-ray logging tool also contains a shock spring for a photoelectronic multiplier, a connector for connecting a power cable and transmitting information, and due to the fact that the studied wells have a shallow depth, tripping is carried out in manual mode, the device contains a suspension plate with a suspension axis, a measuring ruler consisting of articulated links on which holes for the fixing rod are made after 0.1 m, while the device uses an in-depth measurement scheme in which a measuring transducer with an ionizing radiation source is placed in a common well along its center with the ability to measure density in a radius of 100-250 mm and automatic recording of received data to the recorder, the connections are sealed with sealing elements.

Images