Coupling Pyrolysis and Gasification Processes for Methane-Rich Syngas Production: Fundamental Studies on Pyrolysis Behavior and Kinetics of a Calcium-Rich High-Volatile Bituminous Coal
journal contributionposted on 11.09.2017, 00:00 by Bin Tian, Yingyun Qiao, Junfeng Fan, Lei Bai, Yuanyu Tian
The coupling pyrolysis and gasification (CPG) process in the fluidized bed reactor to produce methane-rich syngas is an attractive technology in efficient and clean utilization of coals. Pyrolysis plays a leading role in this technology and other relevant processes. Pyrolysis behavior, gaseous product evolution, and kinetics of a calcium-rich high-volatile bituminous coal were deeply investigated using thermogravimetry coupled with online Fourier transform infrared spectroscopy. The results showed that inherent minerals in the coal were mainly gypsum, calcite, and quartz. Except for SiO2, CaO is the most abundant species in the coal ash. The first-stage mass loss of coal before 654 °C was attributed to functional group cleavage and aromatic ring condensation reactions, during which the relative content of CH4 was the largest among the hydrocarbon gases. The second-stage mass loss was mainly caused by mineral (calcite and gypsum) decomposition. It has demonstrated that the major source of CH4 formation was from cracking of aryl methyl rather than the long alkyl side chains on aromatics in the coal. Furthermore, pyrolysis of the coal could be divided into three kinetic stages based on the activation energy variation. The first and last stages for chemical bond cleavage and mineral decomposition in coal were both controlled by an internal diffusion mechanism. However, the second stage involving a condensation reaction followed a second-order reaction mechanism.
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CPGalkyl side chainscoal ashhydrocarbon gasesfluidized bed reactorPyrolysis Behaviorgroup cleavagering condensation reactionsmethane-rich syngasreaction mechanismfirst-stage mass lossactivation energy variationGasification Processesmineral decompositioncondensation reactionCH 4mass lossCalcium-Rich High-Volatile Bituminous CoalCH 4 formationcalcium-rich high-volatileproduct evolutiondiffusion mechanismFundamental Studieschemical bond cleavagePyrolysis behavioraryl methylMethane-Rich Syngas ProductionSiO 2