Correlation between bond structures and volatile composition of Jining bituminous coal during fast pyrolysis

• Published in: Fuel processing technology Vol. 179; pp. 99 - 107
• Main Authors: Tian, Bin, Qiao, Yingyun, Lin, Xiongchao, Jiang, Yuan, Xu, Long, Ma, Xiaoxun, Tian, Yuanyu
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.10.2018; Elsevier Science Ltd
• Subjects: Aliphatic compounds; Aromatic compounds; Bituminous coal; Bond structures; Breakage; Coal; Composition; Ethers; Gas chromatography; Jining bituminous coal; Mass spectrometry; Nitrogen; Phenols; Pyrolysis; Pyrolysis behavior; Rings (mathematics); Thermogravimetric analysis; Thermogravimetry; Volatile composition; Volatile compounds; Bond structures; Volatile composition; Pyrolysis behavior; Jining bituminous coal
• ISSN: 0378-3820; 1873-7188
• DOI: 10.1016/j.fuproc.2018.06.019

Volatile compositions of coals during fast pyrolysis are principally governed by their bond structures and establishing the relationships between them is vital for deep understanding the pyrolysis mechanism. The structural features and bond information of Jining bituminous coal (JBC) were evaluated first by the combined advanced analytical tools. Subsequently, thermogravimetry coupled with pyrolysis-gas chromatography/time of flight mass spectrometry analysis were used to capture pyrolysis behavior and volatile species of JBC. The results showed that CO bond containing species were rich in JBC and mainly in the form of aryl ethers. Therefore, phenolic compounds were the most abundant species in volatiles during fast pyrolysis and C6C9 phenols were the major constituent of this group. Average number of aromatic rings per cluster, number of substituents on each aromatic ring, and length of methylene chain in JBC were 3, 3–4, and 1.36, respectively. However, the three parameters calculated from the aryl-containing species in volatiles were all smaller than those of JBC. Cleavages of CalO, CalCal, CarCal, and CarO greatly contributed to volatile release and 67% of the mass loss during pyrolysis of JBC was caused by breakage of aliphatic CC and CH. Furthermore, pyrrolic nitrogen was found to be the most abundant form of organically bound nitrogen, but the pyrolysis volatiles contained more pyridine-N. •CO bond species in JBC were mainly in the form of aryl ethers.•Phenolic species were richest in the pyrolysis volatiles of JBC.•xb, σ, and Cn values of aryl-containing species in volatiles were smaller than the values of JBC.•Pyrolysis volatiles contained more pyridine-N rather than pyrrolic-N.