CS253040B1 - Method of material's volume mass changes' influence elimination during moisture radiometrical determination - Google Patents

Abstract

Solution se concerns rodiometrického measure # it humidity material No principle teniielize- ce fast neutrons. Purpose Yippee elimino # vat influence changes volumetric weight measured # him material. This purpose Yippee achieved by that detector thermal neutrons se places ve distance 4 to 13 cm from zdro # Yippee fast neutrons taking this far away # nity Yippee team larger, what larger Yippee range fluctuations volumetric weight measured ma terial.

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for eliminating the effect of variations in bulk density in radial metric moisture determinations based on the principle of fast neutrons.

The radiometric moisture determination of the material based on the principle of fast neutron thermalization provides information on the volume content of water in the measured material.

From the point of view of technical practice, however, for the control of technological processes, it is necessary to know not the volume but the water content. If the bulk density of the monitored material is steadily changing or only slightly changing, the volume content of water can be considered to be proportional to the weight content. In practice, however, this is not the case and, in particular, due to the varying granulometric composition or chemical composition of the material, its bulk density also varies, so that the result of radiometric moisture measurement needs to be corrected so that the reading does not correspond to the volume. Such correction is most often carried out by means of a radiometric measurement of the bulk density of the material carried out in parallel, the essence of which is to measure the degree of attenuation of the primary gamma radiation beam as it passes through the material medium. The result of this parallel measurement is that the corrected radiometric humidity measurement signal is independent of continuous changes in the density of the measured material. Measurement however requires additional equipment, including other ionizing radiation sources.

This disadvantage is eliminated in the method of eliminating the effect of the density changes according to the invention, which consists in placing the thermal neutron detector at a distance of 4 to 3 cm from the source of fast neutrons, the greater the greater the variation range density of measured material.

If the distance between the fast neutron source and the thermal neutron detector is set relative to each other, the material moisture reading obtained is independent of any changes in the bulk density of the material during the measurement. This is due to the fact that in this range of distances the increased moderation ability of the measured material due to the increase in its bulk density at constant moisture mass, resulting in an increase in the total number of thermal neutrons around the fast neutron source, is compensated by competitive capture reactions of the neutron type, gamma caused by the increase in bulk density of the material.

The effects of the invention will be further illustrated by way of example.

In the production of artificial granular fertilizer, the water content of the slurry must be known at an early stage of production. This information is one of the input variables of the production process control. Due to changes in the temperature of this slurry, including fluctuations in its chemical composition, its bulk density ranged from 1,100 to 1,250 kg.m ”^ A radiometric device with an Am ^ ⁴ 'fast neutron source was used for coterminal measurement of the slurry water content. -Be. The boron trifluoride-containing thermal neutron detector [type NUM 627] was positioned such that the longitudinal axes of said radiation source and detector were parallel to each other and the distance from the center of the fast neutron source to the center of the effective detector volume was 7 cm. With this arrangement of the measuring device, the unmeasured values directly indicate the mass content of water in the slurry, regardless of changes in its bulk density.

Claims (1)

Method for eliminating the effect of bulk density changes in radiometric moisture determination based on the principle of Fast Neutron ThermBlicking, characterized in that each of the thermal neutrons is placed at a distance of 4 to 13 cm cd of the fast neutron source, the greater the greater the range fluctuation of bulk density of measured material.