SU1032906A1 - Device for x-ray radiometric logging of wells filled with drilling mud - Google Patents

Abstract

THE DEVICE FOR X-RAY GENERATING WELLSING WELLS, ZAPOL-. NONAL DRILLING SOLUTION containing a borehole projectile, a lifting mechanism with a depth sensor and a recorder connected to a borehole projectile containing an amplitude selector of signals of a projectile with a channel of scattered radiation, connected to a digital and analogue recorder, the analogue recorder connected to a depth sensor timer connected to the depth sensor and digital. In order to increase the speed and accuracy of measurements, it additionally contains an intensity selector consisting of an interpreter of microavern depths of the first and subsequent AND schemes, and the input of the interpreter of microvariance depth is connected to the output of a channel of once scattered radiation of an amplitude selector of signals snapshot yes, the output is with the first input of all AND schemes, the second input of the first AND scheme (L is connected to the timer output, the second inputs of the subsequent AND schemes are connected to the corresponding by the moves of the amplitude selector of the signals of the projectile, and the outputs of all the circuits AND are connected to the inputs of the digital recorder. 00 th on O)

Description

This invention relates to nuclear physics equipment and is intended for use in nuclear geophysical logging.

Devices are known for X-ray, and logging, logging, consisting of a borehole projectile, a lifting mechanism with a depth sensor and a recorder containing a low-channel amplitude signal selector f

sredna, sredinNny with analog and digital recorder, on the corresponding number of channels.

When logging, information is recorded at energy intervals corresponding to the determined (desired) elements, and in the interval of once scattered radiation,

as well as registering depth marks and measurement time at each depth interval.

A disadvantage of the known device is low express and accuracy due to the complexity of processing the received information.

The closest technical solution is a device for X-ray radiometric well logging, containing a wellbore, a lifting mechanism with a depth sensor and a recorder connected to a wellbore, containing an amplitude selector of signals of a projectile with a channel of scattered radiation connected to a digital and analogue recorder, the analogue recorder being connected to a depth sensor, a timer connected to a depth sensor and a digital recorder

However, when X-ray radiography logs on elements with an X-ray energy less than 30 keV, there is an interfering factor in the form of microwell holes of the walls in wells filled with drilling mud, as during measurements the excited radiation of the desired element is measured by X-ray radiometric methods. Which is normalized by the magnitude of the once scattered excited radiation, then when the detecting unit is detached from the wall, there are significant information distortions.

Due to the appearance of a scattered intermediate layer (drilling mud), the intensity of the once scattered radiation sharply increases, leading to an increase in the background in the left part of the secondary radiation spectrum (in the region of the elements sought), and a weakening of the radiation intensity of the excited element is also observed.

With a certain size of the cavity (in practice, with a value of more than 2 mm), the data obtained cannot be satisfactorily interpreted quantitatively even with long-term and complex processing of the information obtained.

In addition, since the measurement results in the accumulation of information at a certain extended interval of depths (usually 1-2 m), the information obtained at points with significant caverns distorts the picture throughout the entire interval, introducing a significant error.

The aim of the invention is to show express and accuracy.

The goal is achieved by the fact that a device for X-ray radiometric logging of wells filled with drilling mud, containing a borehole, a lifting mechanism with a depth sensor and a recorder connected to a borehole bore, containing an amplitude selector of signals of a projectile with a channel of scattered radiation, connected to a digital and analog registrar, rum, with the analog recorder connected to a depth sensor, a timer connected to the depth sensor and a digital recorder, optionally neighbors an intensity selector consisting of an interpreter of the microavern depth, the first and subsequent AND schemes, the input of the interpreter of the microavern depth is connected to the output of the channel of the once scattered radiation of the amplitude selector of projectile signals, the output with the first inputs of all And schemes, the second input of the first AND scheme connected to the output of the timer, the second inputs of the subsequent circuits AND are connected to the corresponding outputs of the amplitude projection of the projectile signals, and the outputs of the circuits AND soi

Dineny with digital recorder inputs. Those. An intensity selector was introduced into the logging device between the amplitude selector and the digital recorder, which excludes information from points with significant cavernity and op- from the registration. This determines the live time: measurements at a given interval. Thus, only undistorted information comes into the registration, which simplifies the subsequent processing and increases the express speed of the results. The accuracy of the measurement is improved both by eliminating the influence of unsuitable information on the measurement result, and by eliminating the loss of information in the interpreted areas. The drawing shows a device, with three channels for the measured elements and a channel for once scattered radiation. The device consists of a logging tool 1, a lifting mechanism 2 with a depth sensor 3 and a recorder 4 The recorder contains a short-channel a Plotter 5 signals from the projectile with channels of measured elements and a channel of scattered radiation, a timer 6 and connected to the selector analog 7 and digital 8 recorders for the corresponding number of channels, with elements of 9 memories in each channel of the digital recorder. The amplitude selector 5 is connected to a digital recorder 8 via a village. The intensity selector 10 contains an interpreter 11 of the depth of microcavings in the intensity of once scattered radiation and a corresponding number of recording channels (including a timer) the number of circuits And 12. The interpreter 11 of the depth of micropoils is connected the output of the channel of the once scattered radiation of the amplitudes of the selector 5, and the output with the inputs of all And 12 circuits, the second inputs of which are connected to the outputs of timer 6 and the corresponding outputs mplitudnogo selector 5, and outputs and circuits 12 associated with the digital inputs regi uratora 8. The apparatus operates as follows. When the projectile is lifted, the information on the depth (position) of the projectile in the well and the radiation intensity over the recording channels is recorded on the tape of the analog recorder 7. Simultaneously, the digitizer records the same information accumulated over a certain interval in a digital form, and when the intensity in the channel exceeds once scattered radiation of a given value, the intensity selector excludes from the registration both information on the recording channels and the timer channel, i.e. the current measurement time is fixed. The timer 6 is started from the depth sensor 3. The analog information is used to link the digital depth information. The digital information received from the device makes it possible to increase the speed of analysis in field conditions, which reduces the amount of green waste. The technical and economic effect of the proposed X-ray logging tool for wells filled with drilling mud is determined by the increase in expressivity, as well as the accuracy of the analysis.

Claims (1)

DEVICE FOR X-RAY RADIOMETRIC LOGGING OF WELLS, FILL- ·. A non-drilling solution containing a downhole projectile, a lifting mechanism with a depth sensor and a recorder connected to the downhole projectile, comprising an amplitude selector of the projectile signals with a channel of once scattered radiation, connected to a digital and analog recorder, the analog recorder connected to the depth sensor, a timer connected with depth sensor and digits ~. a recorder, characterized in that, in order to increase the expressivity and accuracy of measurements, it additionally contains an intensity selector, consisting of an interpreter of the depth of the microcavities of the first and subsequent circuits I, and the input of the interpreter of the depth of the microcavities is connected to the output of the channel of once scattered radiation of the amplitude selector of the projectile signals , the output is with the first input of all circuits AND, the second input of the first circuit And is connected to the timer output, the second inputs of subsequent circuits And are connected to the corresponding outputs of the amp the selector signal of the shell, and the outputs of all circuits And are connected to the inputs of the digital recorder. ί