RU96113461A - METHOD OF RADIATION MONITORING (OPTIONS), RADIATION MONITOR - Google Patents

Claims (6)

1. The method of radiation monitoring, which consists in recording the integral number of γ-quanta for equal time intervals of a given duration Δt, determining, based on these measurements, a threshold level and comparing the value of the integral number of γ-quanta recorded in the last time interval with a threshold level, characterized in that the successive time intervals for recording the integral number of γ-quanta are chosen, two threshold levels are determined: the lower L ₁ and the upper L ₂ , when the integral number is exceeded the number of gamma quanta recorded in the last time interval, above the upper threshold level is judged on the presence of a radionuclide, if the integral number of gamma quanta recorded in the last time interval is not reached, the lower threshold level is judged on the absence of a radionuclide, when the integral number of gamma quanta is hit, recorded in the last time interval, in the interval between the upper and lower threshold levels, additional registration of the integral number of γ-quanta in the time interval following the last m, this number of γ-quanta is compared with the value of the lower threshold level, and the presence of a radionuclide is judged by the excess of the integral number of γ-quanta recorded in the time interval following the last above the value of the lower threshold level. 2. The method of radiation monitoring, which consists in registering the integral number of γ-quanta for equal time intervals of a given duration Δt, determining the threshold level based on these measurements and comparing the value of the integral number of γ-quanta recorded in the last time interval with a threshold level, characterized in that the successive time intervals for recording the integral number of γ-quanta are chosen, two threshold levels are determined: the lower L ₁ and the upper L ₂ , when the integral number is exceeded the number of gamma quanta recorded in the last time interval, above the upper threshold level is judged on the presence of a radionuclide, if the integral number of gamma quanta recorded in the last time interval is not reached, the lower threshold level is judged on the absence of a radionuclide, when the integral number of gamma quanta is hit, recorded in the last time interval, in the interval between the upper and lower threshold levels, additional registration of the integral number of γ-quanta in the time interval following the last m, the half-sum of the number of γ-quanta recorded in the last two registrations is compared with the value of the lower threshold level, and the presence of a radionuclide is judged by the excess of the half-sum of the number of γ-quanta recorded in the last two registrations over the value of the lower threshold level. 3. The method of radiation monitoring according to paragraphs. 1 and 2, characterized in that the lower threshold level is determined from the expression

where 3 ≤ i ₁ ≤ 6 is the coefficient, a = NfΔt, where N _f is the background intensity. 4. The method of radiation monitoring according to claim 3, characterized in that the upper threshold level is determined from the expression

where the coefficient i ₂ is determined from the condition i ₂ > i ₁ , i ₂ ≤ i ₁ + 1.  5. The method of radiation monitoring according to paragraphs. 3 and 4, characterized in that the background intensity is determined by averaging the integral numbers of γ-quanta measured over a period of time T preceding the last registration. 6. The radiation monitoring method according to claim 5, characterized in that the time period T is selected from the condition 10Δt≤T≤40Δt.
7. A radiation monitor containing a series-connected detector, amplifier, lower level discriminator, a processing unit with a counter, a background counter, a threshold calculator, a comparison circuit and an alarm indicator, characterized in that the processing unit further comprises a clock generator, a count register , a second comparison circuit, two AND circuits, an OR circuit, a D-trigger, the output of the lower level discriminator through the information input of the processing unit being connected to the counter input, the counter output being connected to by the information inputs of the background counter and the count register, the output of the clock generator is connected to the control inputs of the background counter, the count register and the control input of the D-trigger, the output of the background counter is connected to the input of the threshold calculator, the output of the threshold calculator corresponding to the lower threshold is connected to the second input the second comparison circuit, the output of the threshold calculator corresponding to the upper threshold is connected to the second input of the first comparison circuit, the output of the reference register is connected to the first inputs of the first and second comparison circuit, the direct output of the first comparison circuit is connected to the input of the OR circuit, the inverse output of the first comparison circuit is connected to the input of the first coincidence circuit And, the second input of which is connected to the direct output of the second comparison circuit, the output of the first circuit And is connected to the information input of the D-trigger, the direct output of the D-trigger is connected to the second input of the second matching circuit AND, the first output of which is connected to the direct output of the second comparison circuit, the output of the second circuit AND is connected to the input of the OR circuit, the output of the OR circuit is connected to the indicator OGI.