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An experimental investigation of early warning index for coal spontaneous combustion with consideration of particle size: a case study

Kai Wang, Zhe Wang, Xiaowei Zhai, Hua Jiang

2022International Journal of Coal Preparation and Utilization25 citationsDOI

Abstract

Accurate prediction and forecasting are the important prerequisites for preventing and controlling the spontaneous combustion of coal. In this study, the production of CO, C2H4, C2H6, and other gases during the oxidation processes was studied by the temperature-programmed method with different particle sizes at a heating rate of 0.3°C/min and a dry airflow rate of 120 mL/min. Based on the quantitative relationship between the temperature and gaseous products, the index gases and their critical values at different oxidation stages were identified. By the gas growth rate method, the critical temperatures for the spontaneous combustion of the coal samples were determined to be in the range of 70°C ~ 80°C, and dry cracking temperatures were 130°C ~ 140°C. By the critical and dry cracking temperatures, the coal oxidation process was classified into three stages, the slow oxidation stage, rapid oxidation stage, and accelerated oxidation stage. A three-level early warning index for predicting coal spontaneous combustion quantificationally was proposed, including CO/CO2, CO2/O2, ΔO2, and C2H4.

Topics & Concepts

CoalSpontaneous combustionCombustionParticle sizeCrackingStage (stratigraphy)Particle (ecology)ChemistryThermodynamicsOrganic chemistryPhysical chemistryOceanographyPhysicsGeologyBiologyPaleontologyCoal Properties and UtilizationSafety and Risk ManagementGeoscience and Mining Technology