SETS OF COAL SEAMS BY HYDROGEN CONTENT IN THE ORGANIC (COMBUSTIBLE) MASS AND MINERAL IMPURITIES OF FOSSIL COALS

JOURNAL of Donetsk mining institute Pub Date : 1900-01-01 DOI:10.31474/1999-981x-2022-2-93-107

Y. Rudniev, M. Antoshchenko, E. Filatieva, M. Filatiev

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Abstract

Purpose: to establish a set of coal seams of the same degree of metamorphic transformations of coals, differing in different elemental hydrogen content, reduced to the conditions of mining operations, taking into account the content of mineral impurities and moisture.. Methodology: based on statistical processing of experimental reference data of indicators of consumer qualities of solid fuel using information about the elemental content of the main components of the combustible mass and ash components, as well as reservoir ash content and moisture content of coal samples for their different state. Results: a different direction of change in the elemental content of hydrogen in analytical samples and recalculated for the working state of seam samples with an increase in the processes of metamorphic transformations of coals (increase in carbon content) has been established. Three sets of coal seams formations have been identified, differing from each other in the level of elemental hydrogen content in the working state of the fuel at the same degree of metamorphic transformations. Empirical dependencies are proposed for the formation of sets of coal seams by the factor of the elemental content of hydrogen on the working state of coals. To improve the regulatory framework for the safe conduct of mining operations, in terms of predicting the manifestation of hazardous properties of coal seams, it is proposed to take into account the influence of the content of mineral impurities on the total ash output from seam samples. Scientific novelty: for the first time, three samples of coal seams formations have been established, for which an increase in the elemental content of hydrogen in the working state of the fuel is observed with an increase in the degree of metamorphism (an increase in the carbon content). Practical value: the obtained scientific results allow them to be used to improve the regulatory framework for the safe conduct of mining operations in predicting the manifestation of hazardous properties of coal seams.

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集煤层中含氢量由有机(可燃)团块和矿物杂质组成的化石煤

目的:建立一套煤层中变质转化程度相同的煤，在不同元素氢含量不同，还原到开采作业的条件下，兼顾矿物杂质和水分的含量。方法:利用可燃质量主要成分的元素含量和灰分成分，以及不同状态煤样的储层灰分含量和含水率等信息，对固体燃料消费者质量指标的实验参考数据进行统计处理。结果:建立了分析样品中氢元素含量变化的不同方向，并重新计算了煤层样品的工作状态随着煤的变质转变过程的增加(碳含量的增加)。已经确定了三组煤层地层，在相同变质程度的燃料工作状态下，它们的单质氢含量水平彼此不同。提出了煤层组的形成与煤的工作状态有关的氢元素含量的经验依赖关系。为了完善安全开采作业的监管框架，在预测煤层危险特性表现方面，建议考虑矿物杂质含量对煤层样品总灰分产量的影响。科学上的新颖性:首次建立了三种煤层构造样品，观察到燃料在工作状态下氢元素含量的增加，变质程度的增加(碳含量的增加)。实用价值:所获得的科学结果可用于改进安全进行采矿作业的管理框架，以预测煤层危险特性的表现。

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JOURNAL of Donetsk mining institute

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