Experimental investigation into the mechanism of secondary oxidation of coal under hot air flow erosion
Peitao Zhu, Ziwen Dong, Zhenya Zhang, Song Kong, Minyang Shen, Yaxian Yu, Haojie Zhang

TL;DR
This study investigates how hot air flow affects the secondary oxidation of coal, revealing how different temperatures and flow rates influence the risk of spontaneous combustion.
Contribution
The paper introduces a temperature-programmed experimental method to analyze secondary coal oxidation under varying hot air flow conditions.
Findings
Higher air flow rates increase oxygen consumption and heat release during low-temperature oxidation.
Treatment with 35 °C hot air flow promotes CO2 generation in later oxidation stages.
65 °C hot air flow treatment reduces the risk of coal spontaneous combustion across all airflow conditions.
Abstract
The residual coal in the goaf of high-temperature mines is highly susceptible to oxidation and spontaneous combustion (SC) due to the erosive effects of hot airflow. Moreover, the risk of secondary oxidation may be significantly elevated. To elucidate this issue, a temperature-programmed experiment device on secondary oxidation was conducted to investigate the characteristics of coal's secondary oxidation under the influence of hot air flow with varying flow rates and temperatures. The analysis focused on O2 consumption rate, heat release intensity (q), the generation rate of carbon-oxygen gas, and the apparent activation energy (Ea) during the secondary oxidation process. The results indicate that during the low-temperature oxidation (LTO) process, an increase in air flow rate leads to a higher O2 consumption rate and q for both raw coal (RC) and coal samples treated with 35 °C hot air…
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Taxonomy
TopicsCoal Properties and Utilization · Geoscience and Mining Technology · Coal and Its By-products
