RU178511U1 - Autonomous borehole spectral sound level meter - Google Patents

Abstract

The utility model "Autonomous borehole spectral sound level meter" refers to the field of geophysics, namely to the study of the acoustic field in oil and gas wells. The technical result of the utility model is to reduce the mass and volume of the sound level meter and the suitability of the sound level meter for measurements in a narrow annulus. The essence of the utility model. An autonomous borehole spectral sound level meter is structurally made in the form of a sealed cylindrical body, inside of which there is a hydrophone, a printed circuit board with an integrated microcircuit (operational amplifier, digital potentiometer, programmable filter, analog-to-digital converter), a microcontroller, and internal non-volatile memory; and for reliable operation at temperatures up to 150 ° C it contains high-temperature electrical and electronic components such as a battery and printed circuit boards, and for reliable operation at pressures of up to 100 MPa and to reduce mass and volume, its cylindrical body has an outer diameter of not more than 28 mm, at thickness not more than 4 mm. Opposite the hydrophone, a narrowed section of the housing with an outer diameter of not more than 25 mm is provided on the sound level meter body, due to this the body wall in this section has a thickness of not more than 1.5 mm. 1 s.p. f-ly.

Description

The utility model "Autonomous borehole spectral sound level meter" refers to the field of geophysics, namely to the study of the acoustic field in oil and gas wells.

The well-known "Integrated downhole tool" according to the patent for utility model RU21419U1 (published: 01/20/2002) [1], containing flow sensors, pressure, temperature, moisture meter, induction resistivity meter, hot-wire anemometer, sound level meter, gamma-ray log and coupling locator, moreover, sound level meter sensor placed on the lower end of the device and separated from the device case by an acoustic insulator, also in another embodiment, the device has roller acoustic insulators of the device case from the borehole walls whose rotation axes intersect with the axis of the device case.

The objective of the Integrated Downhole Instrument utility model is to increase the efficiency of the sound level meter channel by reducing the level of acoustic noise associated with the friction of the instrument body against the well walls, as well as simplifying the design and increasing the reliability of the instrument.

However, the disadvantage of the utility model "Integrated downhole tool" is that the device is not stand-alone, and that it is complex.

There is also a patent for the invention “Method and device for downhole spectral noise metering” RU 2499283 C1 (published: 20.11.2013.) [2].

This invention has features that match the essential features of the claimed utility model, for example, is autonomous and spectral; contains an acoustic detector in the form of a pressure pulse sensor or hydrophone, and its hydrophone may contain piezoelectric material mounted inside the chamber, and the piezoelectric material may contain piezoelectric ceramics, while the chamber with the acoustic detector is preferably filled with oil, which facilitates the transmission of acoustic noise to the piezoelectric material; a computer processing unit can provide fast Fourier transform of a digitized output signal from an analog-to-digital converter.

However, the disadvantage of the invention “Method and device for borehole spectral noise metering" is that, for example, its body has the largest outer diameter of 38 mm, which will not allow it to be used in a narrow annulus; also this sound level meter has a length of 800 mm and a large mass of 5 kg; the sound level meter is designed for a maximum working pressure of 60 MPa, and in some wells the pressure reaches 100 MPa; the sound level meter is designed for a maximum temperature of 120 ° C or more, and in some wells the temperature reaches 150 ° C or more.

Also known is a patent for the utility model “Downhole spectral sound level meter” RU 162515 U1, IPC G01V 13/00 (published: 06/10/2016) [3], which is close to the claimed utility model in technical essence. This utility model is selected as a prototype. This sound level meter is structurally made in the form of a sealed cylindrical body, inside of which there are two hydrophones, the distance between which is selected taking into account the maximum wavelength of the analyzed range of acoustic vibrations, printed circuit boards with integrated circuits installed on them: operational amplifiers, digital potentiometers, programmable filters, analog-to-digital converters, moreover, all these elements form two identical independent functional blocks of the analog processing ki, the use of which allows us to estimate the spectral density of the signal, including its phase component, thereby improving the accuracy and resolution of spectral analysis, while the printed circuit boards also contain a microcontroller and internal non-volatile memory, which continuously stores the digitized signal, which increases the reliability of its interpretation .

Disadvantages of patent RU162515U1: the use of two hydrophones and two identical independent functional units of analog processing complicates the design of a borehole spectral sound level meter and increases the mass of the device and the volume required for their placement in the housing (reducing the mass and volume of the device); also patent RU 162515 U1 did not exclude the following disadvantages of patent RU 2499283 C1: 1) a large outer diameter of the sound level meter housing (38 mm), which does not allow its use in a narrow annulus; 2) the sound level meter has a large length of 800 mm and a large mass of 5 kg, its body has a large thickness of 4 mm;

3) the sound level meter is designed for a maximum working pressure of 60 MPa, and in some wells the pressure reaches 100 MPa or more; 4) the sound level meter is designed for a maximum working temperature of 120 ° C, and in some wells the temperature reaches 150 ° C or more.

The utility model "Autonomous borehole spectral sound level meter" (hereinafter referred to as "sound level meter") eliminates some of the above disadvantages of analogues and prototype.

In the article “Logging, PXR and Well Testing at High Pressure and Temperature” [4], the well temperature above 149 ° was accepted as high, and the pressure was taken high when pressure monitoring equipment was required, designed for more than 69 MPa or expected maximum pore pressure with a hydrostatic gradient above 18 kPa / m.

In Schlumberger regulatory documents, high-pressure and high-temperature wells (hereinafter “HPHT”) are divided into three categories [5], based on the universally existing technological limitations (1 - “HPHT wells”, 2 - “HPHT wells”, 3 - “VDVT-hc wells”). According to this classification, the range of “VDVT wells” begins with a temperature of 150 ° C or a pressure of 69 MPa at the bottom. Even if one of the two parameters falls within the limits of one of the accepted HPH categories, the well is classified as belonging to this category.

All three categories of airborne engines wells need to be evaluated and tested, requiring the use of increasingly sophisticated instruments and equipment. For example, high temperatures in the airborne engines wells disable the electronics of the instruments. High values of temperature and pressure, as is known, affect the readings of the sensors of devices [4].

The purpose of the utility model “Autonomous borehole spectral sound level meter” is to expand the arsenal of technical means for measuring noise by developing a sound level meter that works reliably at temperatures up to 150 ° C and at pressures up to 100 MPa, and having a reduced mass and volume, and also suitable for use in wells with narrow annulus.

The technical result of the utility model is to reduce the mass and volume of the sound level meter, and the suitability of the sound level meter for measurements in a narrow annulus.

The technical result is achieved due to the fact that the autonomous downhole spectral sound level meter is structurally made in the form of a sealed cylindrical body, inside of which there is a hydrophone, a printed circuit board with an integrated microcircuit installed on it (operational amplifier, digital potentiometer, programmable filter, analog-to-digital converter), microcontroller, internal non-volatile memory; and to reduce the mass and volume, its cylindrical body has an outer diameter of not more than 28 mm, with a thickness of not more than 4 mm, and on the contrary to the hydrophone, a narrowed section of the body with an external diameter of not more than 25 mm is provided on the sound level meter body, due to this the wall of the body in this section has thickness not more than 1.5 mm.

Implementation of a utility model. Reliable operation of the sound level meter at temperatures up to 150 ° C is achieved due to the fact that the sound level meter contains high-temperature electrical and electronic components such as a battery and printed circuit boards. The reliable operation of the sound level meter at high pressures up to 100 MPa is justified by the following judgments. The smaller the diameter of the cylindrical body, the lower the pressure force acting on the body, since the pressure force is equal to the product of pressure by the area of the body. Therefore, the presence of the inventive sound level meter of a smaller diameter of the body (28 mm in most of the body and 25 mm opposite the hydrophone) allows you to withstand large pressure values in the well compared to analogues and the prototype. The small diameter of the housing also allows you to have a smaller mass and volume of the sound level meter in comparison with analogues and with the prototype. List of scientific and technical sources cited in the application:

1. Patent for utility model RU 21419 U1, IPC Е21В 47/10, “Integrated downhole tool”. Published: January 20, 2002. Date of the beginning of the countdown of the patent: 06/29/2001. / Fakhreev I.A., Parfenov A.I.

2. Patent for the invention RU 2499283 C1, IPC G01V 1/48, Method and device for downhole spectral noise metering. Published: November 20, 2013. / Davydov D.A., Aslanyan A.M.

3. Patent for utility model RU 162515 U1, IPC G01V 13/00, “Downhole spectral sound level meter”. Date of the beginning of the countdown of the patent: 01/19/2016. Posted: 06/10/2016. / OOO Gazprom georesurs.

4. Baird T., Fields T., Drummond R., Matison D., Langset B., Martin E., Silipinho L. “Logging, PXR and well testing at high pressures and temperatures”, Oil and Gas Review, (spring 2000 ): from. 16-33.

5. DeBrain G., Greenway R., Harrison D., Parris M., James S., Muller F., Ray S., Reading M., Temple L., Wouterich K. “High Pressure and Temperature Technologies”. Oil and Gas Review, (fall 2008): p. 58-76.

Claims (2)

1. An autonomous borehole spectral sound level meter is structurally made in the form of a sealed cylindrical body, inside of which there is a hydrophone, a printed circuit board with an integrated microcircuit (operational amplifier, digital potentiometer, programmable filter, analog-to-digital converter), a microcontroller, internal non-volatile memory, characterized in that for reliable operation at temperatures up to 150 ° C it contains high-temperature electrical and electronic components such as ele cient power and printed circuit boards, and to operate reliably at pressures up to 100 MPa and for reducing the weight and volume of its cylindrical body has an outer diameter of not more than 28 mm, with a thickness of not more than 4 mm; 2. The sound level meter according to claim 1, characterized in that a narrowed section of the body with an outer diameter of not more than 25 mm is provided on the side of the hydrophone on the sound level meter, so that the wall thickness of the body in this section has a thickness of not more than 1.5 mm.