RU2729600C1 - Method of diagnosing stability of operation of a device with a corona counter for measuring neutron flux in the presence of gamma-radiation - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to a facility for diagnosing stability of operation of a device with a corona counter for measuring neutron flux in the presence of intense gamma-radiation. In the disclosed method, prior to measurement, placing a crown counter outside the measurement object area and at different power levels of the absorbed dose of gamma radiation, recording the current of the corona counter when it is operating in a corona discharge mode, current of the corona counter during its operation in the mode of the ionisation chamber and count rate of pulses of the corona counter during its operation in the mode of corona discharge at zero value of the pulse discrimination threshold. Further, it is necessary to record the count rate of the corona counter pulses when the corona counter is being measured in the zone of the measurement object during its operation in the corona discharge mode with zero discrimination threshold and currents of the corona counter during its operation in corona discharge and ionisation chamber modes. Further, the obtained data are processed and analyzed.EFFECT: high efficiency of diagnosing stability of operation of a device with a corona counter for measuring neutron flux by eliminating systematic error of measurements.1 cl, 5 dwg, 1 ex

Description

The invention relates to the field of measuring neutron fluxes and can be used to diagnose the stability of the device with a corona counter for measuring neutron fluxes in the presence of intense gamma radiation.

Known technical solution called "Method of monitoring the stability of the detection channels with corona counters of ionizing radiation" [A.S. USSR 925188 publ. 10/23/1982].

The essence of the method is to register the count rate of pulses from the corona counter at two levels of their discrimination threshold. In normal operation, the device uses a high discrimination threshold, at which pulses from neutrons are recorded; during control measurements, the pulse discrimination threshold is reduced to a level at which the device additionally registers a part of the counter corona discharge pulses. A sign of the stability of the device is the constancy of the difference in the rates of counting pulses recorded in the working and control measurements.

The disadvantage of the known method is that when diagnosing the stability of the device with a corona counter, the effect of gamma radiation on the measured values, in particular on the pulse counting rate in the area of the measurement object, is not taken into account. This disadvantage is due to the fact that the amplitude spectra of corona counter pulses from the registration of corona discharge pulses, neutron and gamma radiation can partially overlap, and in this case it is not possible to select pulses from a corona discharge from all recorded pulses, the constancy of the count rate of which in the known method is taken as a sign of device stability.

The objective of the invention is to eliminate this drawback, namely, to take into account the effect of gamma radiation on the pulse counting rate in the area of the measurement object.

The technical result consists in eliminating the methodological measurement error in diagnosing the stability of the device with a corona counter.

To eliminate this drawback in the method of diagnosing the stability of the operation of a device with a corona counter for measuring neutron fluxes in the presence of gamma radiation, including placing a corona counter in the area of the measurement object, recording the pulse count rate of the corona counter when it is operating in the corona discharge mode in the area of the measurement object, and determination of the stability of the device by the ratio of the received data, it is proposed:

- before the start of measurements, place the corona meter outside the measurement object area and, at various levels of the absorbed dose of gamma radiation, record the corona counter current when it is operating in the corona discharge mode, the corona counter current when it is operating in the ionization chamber mode, and the corona counter pulse count rate at its operation in the corona discharge mode at zero value of the pulse discrimination threshold;

- the obtained data should be presented in the form of dependences of the current of the corona meter during its operation in the corona discharge mode on the absorbed dose rate of gamma radiation, the current of the corona counter during its operation in the ionization chamber mode on the absorbed dose rate of gamma radiation, the pulse count rate of the corona counter during its operation. work in the corona discharge mode with a zero value of the discrimination threshold of its impulses from the absorbed dose rate of gamma radiation;

- register the pulse count rate of the corona counter when it is operating in the corona discharge mode with a zero discrimination threshold and the currents of the corona counter when it operates in the corona discharge modes and in the ionization chamber when carrying out measurements with a corona counter in the area of the measurement object;

- according to the registered readings of the device with a corona counter using the dependences obtained outside the measurement object, the effective rates of the absorbed dose of gamma radiation in the area of the measurement object are determined when the corona counter is operating in the corona discharge mode with a zero value of the discrimination threshold of its pulses and in the corona discharge and ionization chamber modes ;

- to make a conclusion on the stability of the device with a corona counter:

firstly, provided that the relation is fulfilled, which takes into account the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependences of the absorbed dose rate of gamma radiation on the corona meter current during its operation, respectively, in the ionization chamber and corona discharge mode outside the object measurements, and the limit value of the random component of the difference of the specified effective powers; and

secondly, provided that the ratio is fulfilled, which takes into account the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the pulse count rate and the corona meter current during its operation, respectively, in the corona discharge mode and the zero value of the discrimination threshold of its impulses and corona discharge outside the measurement object, and the limiting value of the random component of the difference of the indicated effective powers.

The conditions for measuring currents and pulse reporting rates outside the zone of the measurement object differ from the measurement conditions in the zone of the measurement object by the presence of neutron radiation in it.

Assess the effect of neutron radiation on the measured current value and a pulse count rate indicates that when the ratio of the neutron flux density to the power absorbed dose of gamma radiation of 0.1 to 10 ³ (m / (cm ² ∙ c)) / (Gy / h) the contribution to the measured currents of the corona counter and the pulse counting rate become negligible, which makes it possible to use the proposed feature of the stability of the device operation under the specified limitation.

The sign of device stability used in the method is sensitive to practically any changes in the parameters of the corona meter and measuring channels, in particular, to the gas gain and supply voltage of the corona counter, the conversion factor of the measuring channels and the pulse discrimination threshold.

In the area of the measurement object, the absorbed dose rate of gamma radiation can vary in the range from 1 to 2000 Gy / h.

From the dependences of the corona counter currents during its operation in the corona discharge mode, the corona counter current during its operation in the ionization chamber mode, and the pulse count rate of the corona counter on the absorbed dose of gamma radiation, the most sensitive dependence for determining the stability of the device operation is the dependence of the corona counter current at its operation in the mode of an ionization chamber on the power of the absorbed dose of gamma radiation.

In a particular case of the implementation of the method, it is proposed to diagnose the stability of the device with a corona counter at the ratio of the neutron flux density to the absorbed dose of gamma radiation in the area of the measurement object from 0.1 to 10 ³ (n / (cm ² ∙ s)) / (Gy / h).

The essence of the method for diagnosing the stability of a device with a corona counter when measuring neutron fluxes in the presence of gamma radiation is as follows.

Sequentially perform the following actions:

The corona counter is placed outside the area of the measurement object.

The currents of the corona counter during its operation in the corona discharge and ionization chamber modes and the pulse count rate of the corona counter during its operation in the corona discharge mode with a zero value of the pulse discrimination threshold at various levels of the absorbed dose of gamma radiation are recorded.

The currents of the corona counter and the pulse counting rate obtained outside the zone of the measurement object are presented in the form of dependences of the absorbed dose of gamma radiation on the current of the corona counter, respectively, when operating in the modes of corona discharge and ionization chamber and in the form of the dependence of the absorbed dose of gamma radiation on the count rate pulses of the corona counter during its operation in the corona discharge mode at a zero value of the discrimination threshold of its pulses.

The corona counter is placed in the area of the measurement object and the pulse count rate of the corona counter is recorded during its operation in the corona discharge mode at a zero value of the pulse discrimination threshold and the currents of the corona counter during its operation in the corona discharge and ionization chamber modes.

According to the recorded readings of the device with a corona counter using the dependences obtained outside the measurement object, the effective rates of the absorbed dose of gamma radiation in the zone of the measurement object are determined when the corona counter is operating in the corona discharge mode with a zero value of the discrimination threshold for its pulses and in the corona discharge and ionization chamber modes.

The conclusion about the stability of the device with a corona counter is carried out provided that the relation

| P ^* ₂ - P ^* ₁ | ≤ 140 [Gy / h], (1)

where Р ^* ₂ is the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the corona meter current when it is operating in the ionization chamber mode when operating outside the measurement zone, Gy / h;

Р ^* ₁ - effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the current of the corona meter when operating in the corona discharge mode when operating outside the measurement zone, Gy / h.

and subject to the relation

| P ^* ₃ - P ^* ₁ | ≤ 140 [Gr / h], (2)

where Р ^* ₃ is the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the pulse count rate of the corona meter when it is operating in the corona discharge mode and the zero value of the discrimination threshold of its pulses when operating outside the zone measurements, Gy / h.

In the particular case of diagnosing device stability with corona counter operate with respect to the neutron flux density to the power absorbed dose of gamma radiation to the measurement object area in the range of 0.1 to 10 ³ (m / (cm ² ∙ c)) / (Gy / h).

An example of a specific implementation of the method for diagnosing the stability of the device with a corona counter.

The device to be diagnosed includes a neutron and gamma radiation detector, secondary electronic equipment, and a cable communication line.

A SNM-F corona counter is used as a detector of neutron and gamma radiation.

Secondary electronic equipment includes current and pulse measuring channels, high-voltage power supply for the corona meter, calculator.

The pulse measuring channel has the possibility of amplitude discrimination of the output pulses of the corona counter.

The high-voltage power supply of the corona meter allows changing the supply voltage of the corona meter to set the required mode of its operation.

The calculator is designed to process the signal of the corona counter, control the operation of the device and present the results of diagnostics of the device.

The gamma radiation of the Tandetron accelerator is used as an intense source of gamma radiation. The absorbed dose rate of gamma radiation at the location of the corona counter was measured with a standard UNIDOS clinical dosimeter.

The measurements of the currents of the corona counter during its operation in the corona discharge and ionization chamber modes and the pulse count rate of the corona counter during its operation in the corona discharge mode were carried out outside the zone of the measurement object and in the zone of the measurement object. Outside the area of the measurement object, the absorbed dose rate of gamma radiation varied in the range from 0 to 1800 Gy / h.

In the area of the measurement object, a neutron source was used to simulate the neutron flux, which, at the location of the corona counter, created a neutron flux with a density of 10 ³ n / (cm ² ∙ s)

Outside the measurement object area, data were obtained from which the dependences of the absorbed dose rate P _{γ1 of} gamma radiation on the corona meter current during its operation in the corona discharge mode I ₁ (P _{γ, 1} = 1.4 ∙ 10 ⁹ I ₁ - 3.1 ∙ 10 ³ ), (see Fig. 1), the absorbed dose rate of gamma radiation P _{γ2 of the} corona counter when it is operating in the mode of the ionization chamber I ₂ (P _{γ, 2} = 1.8 ∙ 10 ¹⁰ I ₂ ) (Fig. 2 ) and the absorbed dose rate of gamma radiation Р _γ3 on the pulse count rate n of the corona counter when it operates in the corona discharge mode and the zero value of the pulse discrimination threshold (Р _{γ, 3} = 0.25 ∙ 10 ³ N - 5.0 ∙ 10 ³ ) (Fig. 3). In the obtained dependences, the counter currents are expressed in amperes, the absorbed dose rate of gamma radiation in Gy / h, and the pulse counting rate in imp / s.

The obtained dependences outside the zone of the measurement object together with the data obtained in the zone of the measurement object allow, based on the stability of the device operation, to determine the stability / instability of the operation of the measuring channels of the device in the presence of intense gamma radiation.

The current of the corona meter during its operation in the corona discharge mode is I ₁ = 2.8 ∙ 10 ^-6 A, the current of the corona meter during its operation in the ionization chamber mode is I ₂ = 5.2 ∙ 10 ^-8 A, the count rate of corona pulses the counter when it is operating in the corona discharge mode at a zero value of the discrimination level is n = 23.5 imp / s.

According to the dependences obtained outside the zone of the measurement object (see Figs. 1-3), and according to the data obtained in the zone of the measurement object, the corresponding effective rates of the absorbed dose of gamma radiation in the zone of the measurement object were determined, which are respectively equal to P ^* ₁ = 820 Gy / h, P ^* ₂ = 9З6 Gy / h, P ^* ₃ = 875 Gy / h.

We use the totality of the obtained data to determine the stability of the device using relations (1) and (2). We have:

P ^* ₂ - P ^* ₁ = 116 Gy / h; P ^* ₃ - P ^* ₁ = 55 Gy / h;

116 Gy / h≤140 Gy / h; 55 Gy / h ≤140 Gy / h.

We see that the condition for stable operation of the device in the area of the measurement object is met.

Let us evaluate the possibility of determining the stability of the device with a corona counter in the presence of gamma radiation by the method [1].

For this we use the graphic material presented in Figs. 4 and 5.

Fig. 4 shows the amplitude distribution of pulses from the corona counter in the presence of gamma radiation with a power of 6.54 Gy / h.

FIG. 5 shows the amplitude distribution of pulses from the corona counter in the presence of gamma radiation with a power of 1338 Gy / h.

According to the method, a sign of stable operation of the device is the constancy of the counting rate of corona discharge pulses.

The section with corona discharge pulses in Fig. 4 is between 50 and 100 channels of the energy scale.

However, when the absorbed dose rate of gamma radiation changes, the boundaries of this area change towards large pulse amplitudes due to the multiple superposition of corona discharge pulses with pulses from the registration of gamma radiation.

FIG. 5 shows that these changes can lead to the fact that no corona discharge impulses will be recorded in the section between the channels from No. 50 to No. 100. At the same time, channels from 150 to 250 give a significantly larger number of pulses compared to the absorbed dose of gamma radiation equal to 6.54 Gy / h.

Thus, the methodical error of the known method in the presence of gamma radiation in the measurement area is shown to establish the stability of the device operation, since the count of corona discharge pulses significantly depends on the absorbed dose rate of gamma radiation.

The industrial applicability of the method is based on positive experimental results.

Claims (9)

1. A method for diagnosing the stability of the operation of a device with a corona counter for measuring neutron fluxes in the presence of gamma radiation, including placing a corona counter in the area of the measurement object, recording the pulse count rate of the corona counter when it is operating in the corona discharge mode in the area of the measurement object and determining the stability of operation devices according to the ratio of the obtained data, characterized in that before placing the corona counter in the area of the measurement object, it is placed outside the area of the measurement object at different levels of the absorbed dose rate of gamma radiation, the currents of the corona counter are recorded during its operation in the corona discharge mode and in the ionization chamber mode and the pulse count rate of the corona counter when it is operating in the corona discharge mode at a zero value of the pulse discrimination threshold, the data obtained outside the measurement object area are presented in the form of dependences of the corona counter current during its operation in the corona discharge mode on the absorbed dose rate of gamma radiation, the current of the corona counter during its operation in the ionization chamber mode on the absorbed dose rate of gamma radiation, the pulse count rate of the corona counter during its operation in the corona discharge mode with a zero value of the threshold for discriminating its pulses from the absorbed dose rate of gamma radiation, after placing the corona counter outside the zone of the measurement object, it is placed in the zone of the measurement object, the pulse counting rates of the corona counter are recorded during its operation in the corona discharge mode with a zero value of the discrimination threshold of its pulses, the currents of the corona counter are recorded during its operation in the corona discharge modes, and of the ionization chamber and according to the recorded readings of the device with a corona counter using the dependences obtained outside the measurement object, the effective rates of the absorbed dose of gamma radiation in the area of the measurement object are determined when the corona counter is operated in the corona discharge mode at zero value When determining the discrimination threshold of its impulses in the modes of corona discharge and ionization chamber, and the conclusion on the stability of the device with a corona counter is carried out: firstly, provided that the relation | P ^* ₂ - P ^* ₁ | ≤ 140 [Gy / h], where Р ^* ₂ is the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the corona meter current when it is operating in the ionization chamber mode when operating outside the measurement zone, Gy / h; Р ^* ₁ is the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the corona meter current when it is operating in the corona discharge mode when operating outside the measurement zone, Gy / h, secondly, provided that the relation | P ^* ₃ - P ^* ₁ | ≤ 140 [Gy / h], where Р ^* ₃ is the effective absorbed dose rate of gamma radiation in the area of the measurement object, determined from the dependence of the absorbed dose rate of gamma radiation on the pulse count rate of the corona meter when it is operating in the corona discharge mode and the zero value of the discrimination threshold of its pulses when operating outside the zone measurements, Gy / h. 2. A method according to claim 1, characterized in that the diagnosing operation of the device stability with corona counter operate with respect to the neutron flux density to the power absorbed dose of gamma radiation in the area of the object of measurement from 0.1 to 10 ³ (m / (cm ² ⋅ s)) / (Gy / h).

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