SU981916A1 - Method of determination of pyrosulphur content in carbon materials - Google Patents

Description

(54) METHOD FOR DETERMINING THE CONTENT OF PYRITE SULFUR IN CARBON MATERIALS

one

The invention relates to methods for assessing the quality of materials by physical (in particular, electrical) methods and can be used by geological prospecting, mining and processing carbonaceous substances enterprises for operative control, for example, of sulfur content of coal and combustible shale when determining their energy or technological value.

A known method for the analytical determination of the content of pyrite sulfur in solid minerals, including the oxidation of pyrite by nitrogen, t, 5 the conversion of iron to chlorides, its reduction by aluminum, and the precipitation of sulfate ion by barium chloride P.

However, this method is characterized by 20 fairly narrow limits of applicability, complexity of implementation, fpeOyer is time consuming and does not always give satisfactory results.

The closest in technical essence and the achieved result to the proposed method is the method of determining the content of pyrite (sulfide) sulfur in hard coal according to their conductivity C2J. ,

In this method, npcvby are prepared in the form of dry pressed powders and their electrical conductivity is measured, the value of which determines the sulfur content in them.

The purpose of the invention is to increase the accuracy and reliability of research.

The goal is achieved by the fact that according to the method for determining the content of pyrite sulfur in carbonaceous materials, including the preparation of samples in the form of dry pressed powders and the measurement of their electrical conductivity, the value of which determines the sulfur content, the electrical conductivity of the samples is measured in vacuum.

Vacuuming cleans carbonaceous materials from sorbed gases and vapors and thereby increases the sensitivity of the electrical conductivity of these materials to the percentage

in them pyrite, and therefore, pyrite sulfur. Removing sorbed substances from coal or their shale leads to a significant decrease in the electrical conductivity of the organic matter and mineral rock impurities, which are dielectrics in the dry state, and also contributes to an increase in the electrical conductivity of the pyrite contained in them, which belongs to good electronic conductors. Hence, it follows that in the course of vacuuming, the electrical properties of the carbonaceous substance and the dispersed fine pyrite contained in it become more differentiated.

Therefore, any changes in the quantitative content of pyrite in the sample under vacuum conditions are reflected in the magnitude of its electrical conductivity.

The process of determining pyrite sulfur in carbonaceous materials is carried out as follows.

A sample of the test material, pre-crushed in the powder to a grain size of less than 0.2-0.3 mm, is intensified, poured into the mold

and using a hydraulic press, the press is pressed under a pressure of 100 kg / cm. The tablet thus obtained is placed in a sealed chamber, equipped with high-resistance electrical leads and connected to a vacuum system, evacuated to about 1 mm Hg, the electrical conductivity is measured and The percentage of pyrite sulfur in the test sample is determined using a calibration chart.

Claims (2)

1. Veselovsky V.S., Testing of combustible minerals. M., Gosgeyulizdat, 1951, p. 148, 153-155. 2. A method for measuring conductivity on dry pressed powders. GOST 4668-65 (prototype).