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Reaction pathways and functional group transformation in CO/CO2 generation from low-rank coal at low temperature oxidation

Liangzhou Chen, Jian Zhao, Wei Lu, Zhongqiu Liang, Jinhu Li, Xuyao Qi

2025Case Studies in Thermal Engineering9 citationsDOIOpen Access PDF

Abstract

Carbon monoxide (CO) and carbon dioxide (CO 2 ) are the primary gases generated during the low-temperature oxidation (LTO) of coal. This study explores their generation mechanisms in low-rank coal through a combination of LTO experiments, in-situ Fourier Transform Infrared (FTIR) spectroscopy, and density functional theory (DFT) calculations. Results show that CO formation begins at 30 °C and increases exponentially above 70 °C, primarily due to the decomposition of aldehyde and carboxyl groups. In contrast, CO 2 production is initially delayed by gas desorption and gradual oxidation of carboxyl groups, but accelerates rapidly above 100 °C due to thermal decomposition. DFT calculations confirm that both gases are produced via temperature-sensitive free radical chain reactions: CO through a two-step aldehyde decomposition and CO 2 via high-energy oxidation of carboxyl groups. These findings highlight the pivotal role of temperature and functional group evolution in governing gas generation pathways during coal oxidation.

Topics & Concepts

Rank (graph theory)CoalTransformation (genetics)Group (periodic table)ThermodynamicsMaterials scienceChemistryMathematicsPhysicsCombinatoricsOrganic chemistryGeneBiochemistryCoal Properties and UtilizationThermochemical Biomass Conversion ProcessesHydrocarbon exploration and reservoir analysis