RU2543238C2 - Method of prediction of explosiveness of deposited dust in gassy mines - Google Patents

Abstract

FIELD: mining operation.

SUBSTANCE: method of prediction of explosiveness of deposited dust in gassy mines is proposed, comprising determining in the coal of volatile matter content and mineral impurities in it, measuring the amount of dust deposited in mines and determining the lower limit of its explosiveness. And in the coal bed the areas with inclusions of pyrite are determined, and in the process of coal-face operation in the working with outlet air flow the air flow rate is measured, the content of methane and hydrogen sulphide in it. According to the content of hydrogen sulphide generated during the thermal decomposition of pyrite dust, the lower explosiveness limit of the hybrid mixture is determined.

EFFECT: increase in reliability of prediction of explosiveness of the deposited dust in mines.

Description

The invention relates to mining, mainly to the coal industry, and can be used to predict the explosiveness of deposited dust in the workings of gas mines.

There is a method for predicting the explosiveness of deposited dust in the workings of gas mines, including the determination of coal in the volatile substances and mineral impurities in it, measuring the concentration of methane in the mine air and the amount of dust deposited in the mine, establishing a lower explosive limit (Geotechnological problems of developing hazardous gas and dust of coal seams / A.D. Ruban, G.S. Zaburdyaev, BC Zaburdyaev; Institute for the Integrated Development of the bowels of the Russian Academy of Sciences.

The disadvantage of this method is that it does not take into account the costs of methane-air mixtures in mine workings, the inclusion of pyrite in coal seams, the dust of which ignites at a temperature significantly lower than the ignition temperature of coal dust.

A known method for predicting the explosiveness of coal dust deposited in mines, including determining the content of volatile and mineral impurities in coals, measuring the amount of coal dust deposited in mine workings and establishing a lower explosive limit (Methodological principles for the design of degassing in existing and liquidated mines / BC Zaburdyaev, A. D. Ruban, G.S. Zaburdyaev et al. - M.: NSC GP-IHD named after A.A. Skochinsky, 2002 .-- 316 p.).

The disadvantage of this method is that it does not detect the inclusion of pyrite in coal seams, do not measure the costs of methane-air mixtures in dusty workings with an outgoing air stream in the process of coal extraction.

The closest is a method for predicting the explosiveness of dust deposited in coal mines, including the determination of coal, volatile substances, mineral and non-combustible impurities, sampling deposited in coal dust mines and establishing a lower explosive limit (Problems of ensuring high productivity of treatment faces in methane-rich mines / A. D. Ruban, V. B. Artemyev, BC Zaburdyaev et al. - M .: URAN IPKON RAS, 2009. - 396 p., Prototype).

The disadvantages of the method are that in coal seams areas with pyrite inclusions are not distinguished, in the process of cleaning coal extraction in openings with an outgoing ventilation stream, air flow rates and the content of methane and hydrogen sulfide in it, significantly affecting the ignition temperature of hybrid mixtures, are not measured.

The aim of the invention is to increase the reliability of the forecast of explosive dust deposited in mine workings, which complicates the selection of technological measures to prevent dust explosions during underground work in coal mines hazardous to gas and dust.

According to the invention, the goals are achieved in that in a method for predicting the explosiveness of deposited dust in gas mines, including the allocation of sections with pyrite inclusions in a coal seam, determining the amount of volatile substances and mineral impurities in the coal, measuring air flow, the content of methane and hydrogen sulfide in it in the process of coal mining in the mine with an outgoing ventilation stream, measuring the amount of dust deposited in the mine, the lower explosion limit is set dust and ignition conditions of the gas-dust hybrid mixture. At the same time, the specific dust amount per cubic meter of mine air, which is capable under certain conditions of low-temperature ignition of the hybrid mixture, is taken as the lower dust explosion limit.

The method is as follows.

According to geological exploration data, sections of a coal seam with pyrite inclusions are identified in a mine field, the amount of volatile substances, mineral impurities and ash in it is determined in coal. During the operation of the coal mining machine in a mine with a jet emanating from the lava, the air flow rate and the methane and hydrogen sulfide content in it are measured, the amount of dust deposited in the mine is determined by using standard methods and means of dust sampling. At the same time, the level of the specific amount of dust in a cubic meter of mine air is taken as the lower dust explosion limit.

The content in the air stream of hydrogen sulfide generated during the thermal decomposition of pyrite dust and reducing the ignition temperature of hybrid mixtures is determined by measuring its concentration in the measured air flow rate.

All the above measurements and determination of the parameters of methane-dust mixtures, the content of volatile substances, mineral impurities and ash in coal, the amount of dust deposited in the production of dust and the lower explosive limit are carried out in accordance with the recommendations of regulatory and methodological documents in the field of mine aerology and technical analysis of coal samples and dust.

A positive effect is achieved by taking into account the conditions and a complex of factors affecting the formation of explosive dust in the mine atmosphere and in the mine, as well as by measuring the content of methane and hydrogen sulfide in the mine air, which significantly determine the temperature regime of ignition of hybrid mixtures.

Claims (1)

“A method for predicting the explosiveness of deposited dust in gas mines, including determining the coal content of volatile substances and mineral impurities in it, measuring the amount of dust deposited in the mine and setting the lower explosive limit, characterized in that sections with pyrite inclusions are identified in a coal seam in the process of cleaning coal extraction in a mine with an outgoing ventilation stream measures the air flow, the content of methane and hydrogen sulfide in it, according to the content of the latter formed in the process thermal decomposition of pyrite dust, set the lower explosive limit of the hybrid mixture. "