IDENTIFICATION OF THE LOW-RANK COALS THERMAL HEATING BEHAVIOR

Mergalimova A. Аtyaksheva А. Ybray S. Seitzhapparov N.
2024 Technology Center

Eastern-European Journal of Enterprise Technologies
2024 #2 Issue 6(128)39 - 48 pp.

In this study, the object of the research is low-rank coal during the process of thermal heating of five types: brown, high moisture brown, long-flame, coke weakly sintering and coke fusinite. In the research, when conducting thermal and gas analysis in inert media, the problem of using low-rank coal in the thermal heating process to obtain volatile fuel gases was solved by identifying the quantitative and qualitative performance of its behavior. Quantitative indicators are determined as the mass of thermal destruction products: the mass of coal tar and gas products and semi-coke under optimal temperature conditions of their maximum release. Qualitative indicators of coal behavior are components of thermal decomposition products. It is revealed that the behavior of low-rank coals in the process of thermal heating is determined by the degree of metamorphism. In this case, long-flame and brown coals have a lower release of volatile fuel gases than coke weakly sintering and coke fusinite coals due to a lower degree of metamorphism and greater degrees of thermal oxidation and dehydration. Thermal decomposition component ranges consisting of polyaromatic fragments (HCN, C₆H₁₂, C₄H₅N), greenhouse gases (CH₄ and CO₂), toxic gases (H₂S and NH₃) and synthesis gases (CO and H₂) have the highest share of release. Optimal temperature conditions and ranges for the release of low molecular weight gases used as high calorific volatile fuel gases are obtained. The results can be used in the design, optimization and construction of thermal heating equipment, correction of gasification and pyrolysis processes. Moreover, they can be applied in localized coal tar spots minimization technologies and for designing targeted gases extraction Copyright

coal , decomposition , energy efficiency , temperature , thermal heating , volatile fuel gases

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Department of Thermal Power Engineering, Kazakhstan
Department of Heat Power Engineering, Kazakhstan
L.N. Gumilyov Eurasian National University, Satbayev str., 2, Astana, 010008, Kazakhstan

Department of Thermal Power Engineering
Department of Heat Power Engineering
L.N. Gumilyov Eurasian National University

10 лет помогаем публиковать статьи Международный издатель

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