SU1578672A1 - Method of disclosing sulphuric mineralization - Google Patents

Abstract

This invention relates to exploratory mineralogy. The purpose of the invention is to increase the efficiency of detection of sulfur ore. The method for detecting sulfur ore includes sampling of rocks, the extraction of gypsum and anhydrite from them, heating them to the temperature of destruction of bitumoids and analyzing gaseous products for hydrogen sulfide content. The presence of sulfur mineralization is judged by the concentration of hydrogen sulfide exceeding 0.25 mole fraction. 1 tab.

Description

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The invention relates to exploratory mineralogy and can be used in the practice of geological and mineralogical work for prospecting and exploration of mineral deposits.

The aim of the invention is to increase the efficiency of the method for detecting sulfur mineralization,

The method is implemented as follows.

Samples of gypsum and anhydrite are taken by the area of distribution of the sulfate-bearing strata in places exposed by natural and artificial outcrops, the intersection of mountain workings and boreholes. If there are several generations of gypsum for each generation, samples are taken separately.

Samples are ground, cleaned from a mechanical magnifying glass from mechanical impurities, washed with water and ethyl alcohol, and dried in a drying oven.

Given the high degree of oxidation of bitumoids contained in the form of inclusions, pyrolytic gas chromatography is most appropriate for determining their composition.

The dried samples are placed in a quartz glass reactor connected through a system of taps to a chromatograph. The reactor heats the temperature at a temperature not higher than the temperature of the gas-liquid inclusions in the studied minerals, while simultaneously blowing it with helium (carrier gas) to eliminate the air sorbed by the sample. After

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The purging of the reactor is hermetically sealed and heated to the temperature of complete decomposition of the bitumen inclusions, which is determined experimentally by reducing the maximum release of the pyrolysis products. To compare the results, samples with constant weight and particle size are used.

Gaseous products are sent to a separation column of a chromatograph filled with a polysorb. In order to avoid the dissolution of hydrogen sulfide in the water released from the minerals, the gases are sent in a hot state, heated to the pyrolysis temperature.

The presence of hydrogen sulfide in the composition of the pyrolysis products indicates the prospects of the sulphate-carbonate stratum to detect sulfur ore (neither.

The results of chromatographic analysis are converted into molecular amounts. The content of hydrogen sulfide is determined. If the molar fraction of sulfur sulfide among the dominant gases is more than 0.025, the rocks of the sulfate-carbonate complex under study are promising for the discovery of rich sulfur ores and large deposits. The most promising - JQ Nyumans of native sulfur are sedimentary complexes; 9 bitumens of which are characterized by a high content of hydrogen sulfide,

The method is illustrated by an example.

Example: Samples of gypsum and anhydrite from known sulphate-carbonate sedimentary complexes were investigated using gas chromatography: lower Permian evaporite thicknesses (Glorynsk suite, 14 samples), Miocene sediments (Lower Vorotyshchensk suite, 5 samples, and tirassk suite, 13 samples), Miocene sediments (Chokrak horizon. 4 samples) and modern formations (4 samples), and also free bitumen from emissions of volcanoes was investigated.

The research results are presented in the table.

According to the results of the Slavska suite, it is not very promising for the detection of sulfur mineralization, since hydrogen sulfide in the composition of products, pyrolysis of bitumen inclusions was not found, Modern sulphate-carbonate sediments are promising for the detection of sulfur mineralization, but its scale is not 3

can be significant. The highest proportion of hydrogen sulphide in the composition of pyrolysis products was obtained for deposits of the Tirasky and Nizhny Vorotischensky formation, which should be considered the most promising from the point of view of the detection of large sulfur deposits.

The proposed method allows to increase the efficiency of searches for sulfur ore. Of the four sulfate-bearing strata studied, only three were considered promising for the detection of sulfur mineralization, which reduces the volume of planned exploration and drilling workings by 25%. Similar testing conducted within each prospective series reduces the amount of exploration and increases the accuracy of location determination. ore deposit.

Claims (1)

Invention Formula A method for detecting sulfuric mineralization, including sampling, extraction of gypsum and anhydrite from them, their subsequent analysis, characterized in that, in order to increase the efficiency of the method, hydrogen sulfide is separated from samples of gypsum and anhydrite by heating them to a temperature of destruction of bitumen and the presence of sulfur ore is judged by the concentration of hydrogen sulfide exceeding 0.025 mole fraction., The average content of hydrogen sulfide in the pyrolysis products of inclusions,% (molar fractions) Not installed 23.3 17.8