RU2242031C2 - Method for measuring intensiveness of nuclear radiation in a well - Google Patents

Abstract

FIELD: geophysics.

SUBSTANCE: method includes detecting nuclear radiation by one and another detectors in form of electric signals, forming and transfer to surface along armored cable in form of normalized impulses of positive polarity of signals from one detector and in form of normalized impulses of negative polarity, of signals from another detector. When signals from both detectors match, amplitude of impulses of positive (negative) polarity is increased in 1.5-2 times. During selection additionally singled out are impulses of positive (negative) polarity with increased amplitude, formed and recorded together with impulses of negative (positive) polarity.

EFFECT: higher precision.

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Description

The invention relates to the field of geophysical methods for researching wells and can be used for two-channel measurement of nuclear radiation in a well.

A known method of two-channel measurement of the intensity of nuclear radiation, including multi-channel detection of radiation in a counting mode, standardization of pulses in amplitude different for different channels, transmission of pulses on a single-channel communication line, the amplitude selection of these pulses and their separate registration. (ed. St. USSR No. 1120269, G 01 V 5/00, decl. 9.02.83)

The disadvantage of this method is the decrease in the accuracy of registration of nuclear radiation due to the fact that in the absence or low intensity of the channel signals with a "higher intensity" the channel pulses with a "lower intensity" will not be recorded or, accordingly, will be recorded with a miscalculation.

Closest to the claimed method is a method of measuring the radioactivity of nuclear radiation in a well, implemented in the equipment DRST-3. The method includes two-channel detection of nuclear radiation in the well, generation and transmission of positive polarity pulses corresponding to the signals of one detector and pulses of negative polarity corresponding to the signals of another detector through the wireline core, priority generation of pulses of one polarity when the signals of one and the other detectors coincide, pulse selection by polarity and their separate registration (Apparatus and equipment for geophysical studies of oil and gas with Kvazhin / Molchanov A.A. et al. - M .: Nedra, 1987. - P.96).

The disadvantage of this method is the miscalculation of the signals of the channel, which does not have priority.

The present invention solves the problem of improving the accuracy of measurements in two-channel nuclear logging by eliminating miscalculations of pulses.

To solve this problem, in a method for measuring the intensity of nuclear radiation in a well, which consists in detecting nuclear radiation with one of the other detectors in the form of electrical signals, generating and transmitting a wireline cable in the form of normalized pulses of positive polarity of the signals of one detector and in the form of normalized pulses negative polarity of the signals of another detector, providing priority formation of pulses, for example, positive (negative) polarity and if the signals of one and the other detectors coincide, the pulses are selected for polarity and their registration is separate, when the signals of one and the other detectors coincide, for example, the pulse amplitude of positive (negative) polarity is increased 1.5-2 times, and when selected, pulses are additionally isolated positive (negative) polarity with increased amplitude, form them and register along with pulses of negative (positive) polarity.

The drawing shows the process of measuring the intensity of nuclear radiation in the well: a), b) shows the signals of the detectors; c) pulses on the cable core are shown; d) impulses of positive polarity are shown after selection; d) shows the selected pulses with increased amplitude; f) pulses of negative polarity are shown together with the generated additionally selected pulses.

The essence of this measurement method (drawing) is the detection of nuclear radiation by two detectors in the form of electrical signals (a, b), which are formed into pulses of different polarity for various detectors and transmitted along one core of the wireline to the surface (c). When the signals of the detectors coincide, the amplitude of the pulses of positive (negative) polarity is increased 1.5-2 times. During selection, in addition to separating the pulses by polarity (g, e), pulses of positive (negative) polarity with increased amplitude (e) are additionally selected, corresponding to the signal of a detector having priority pulse formation. These pulses are formed and recorded together with pulses of negative (positive) polarity (e) corresponding to a signal of a detector having non-priority pulse formation. Thus, when transmitting information from two detectors through one core of a cable, a pulse with an increased amplitude indicates the simultaneous detection of nuclear radiation by both detectors, which makes it possible to register pulses without miscalculations.

The proposed method allows to increase the measurement accuracy in two-channel nuclear well logging by eliminating pulse miscalculations using a single-core logging cable, which, in turn, improves the reliability of geological information obtained using nuclear logging methods.

Claims (1)

A method for measuring the intensity of nuclear radiation in a well, including detecting nuclear radiation with one of the other detectors in the form of electrical signals, generating and transmitting to the surface of the wireline core in the form of normalized pulses of positive polarity of the signals of one detector and in the form of normalized pulses of negative polarity of the signals of another detector, providing priority formation of pulses, for example, positive (negative) polarity when the signals coincide о and the other detectors, the selection of pulses by polarity and their separate registration, characterized in that when the signals of one of the other detectors coincide, the pulse amplitude of positive (negative) polarity is increased 12.5-2 times, and during selection, pulses of positive (negative) are additionally isolated ) polarity with increased amplitude, form them and register together with pulses of negative (positive) polarity.