SU1645045A1 - Method of radiation separation of loparite ores - Google Patents

Abstract

This invention relates to the radiometric enrichment of mineral raw materials and is aimed at improving the separation efficiency of loparite ores. The separation method includes feeding the ore to the measurement area, recording the content of thorium and rare earth elements of the lanthanum-cerium group in ore pieces, determining the value of the separation criterion as a product of the measured content levels and then sampling the conditioned pieces. 1 hp f-ly, 2 ill.

Description

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This invention relates to the radiometric enrichment of mineral raw materials and can be used to enrich loparite ores.

The aim of the invention is to increase the separation efficiency by increasing the selectivity of separation of ore and rock.

Figures 1 and 2 show the graphical dependences of the content of loparite and, accordingly, of thorium and rare earth elements of the lanthanum-cerium group.

Tables 1 and 2 present the experimental data and the data for calculating the correlation coefficient between the content of loparite and, respectively, the content of thorium and rare-earth elements of the lanthantium group.

A method for separating loparite ores involves feeding pieces of ore to a measurement zone in which content levels are recorded in pieces of ore.

associated loparite and tori, as well as rare earth elements of the lanthanum-cerium group, which are part of loparite. The product of the levels of the content of thorium and rare-earth elements of the lanthanum-cerium group is chosen as the value of the separation criterion.

It is advisable to measure the level of thorium content by registering gamma radiation of thorium in the energy range of 2.4-3.0 MeV.

Measurement of the content of rare-earth elements of the lanthanum-cerium group is advisable to do by irradiating ore lumps with gamma radiation from americium-241 radionuclide sources and then measuring and finding the ratio of characteristic x-ray radiation in the energy range 32-37 KeV and scattered gamma radiation in the energy range 47- 52 keV.

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The feasibility of selecting the associated related elements and choosing as a criterion for dividing the product of their levels of content is due to the presence of significant positive correlations between the content of the selected related elements and the content of loparite.

From the experimental data presented in Figures 1 and 2, characterizing the joint content of loparite and, respectively, the content of the thorium and rare earth elements of the lanthanum-cerium group, the proximity of the experimental points to the direct dependence of the content of loparite from the corresponding accompanying elements is seen. This indicates the presence of significant correlations between these elements.

The obtained values of the correlation coefficients 0.969 and 0.971 confirm the significance of the correlation dependences.

The expediency of choosing a relatively limited energy range for recording gamma-radiation of thorium is associated with the elimination of the effects of potassium and uranium radiation, which are present in loparite ores, but do not have significant correlation dependencies with loparite content.

The choice of a radionuclide source of gamma radiation with the americium-241 isotope as the excitation source is due to the good excitation conditions of the characteristic x-ray radiation of the rare-earth elements of the lanthanum-cerium group in the energy range 32-37 KeV. The peak of the intensity of gamma radiation from americium 241 (47-52 keV) corresponds well to this range.

The use of the ratio of the levels of the intensity of the scattered and undistributed radiations in determining the level of the rare earth elements of the lanthanum-cerium group makes it possible to eliminate the influence of the instability of the level of the intensity of the radiation source.

Use as a criterion for the separation of the work of related

elements allows to significantly increase the separation selectivity in comparison with the use of separation criteria obtained for only one accompanying element.

Claims (2)

1. A method of radiometric separation of loparite ores, including the supply of pieces of ore to the measurement zone, the measurement of the levels of the main and associated elements, determining the magnitude of the separation criterion and the subsequent separation, characterized in that, in order to increase the separation efficiency by increasing the separation selectivity, ores and rocks, the levels of thorium and rare earth elements of the lanthanum-cerium group are measured, and the product of the levels of these elements is used as a criterion of separation. 2. The method according to claim 1, based on the fact that the thorium content is determined by recording the intensity levels of gamma radiation of ore pieces in the energy range 2.4–3.0 MeV, and the content The rare-earth elements of the lanthanum-cerium group are determined by irradiating ore lumps with gamma radiation from radionuclide sources of americium-241, by finding the ratio of the characteristic radiation in the energy range of 32–37 keV and scattered gamma radiation in the energy range of 47–52 keV. Table 1 Calculation of the linear correlation coefficient for the contents of loparite and thorium in the loparite ores of Lovozero GOK Calculation of the linear correlation coefficient between the content of loparite and the sum of rare-earth elements in the loparite ores of Lovozero GOK about С SL O-C ate J, M , ° / 0 ABOUT W 2JOSPRZE% 1.0 3.0 W zo Slop.,% 4.0 5.0