Study of Nitrogen Compound Migration during the Pyrolysis of Longkou Oil Shale with Thermal Bitumen as the Intermediate

Study of Nitrogen Compound Migration during the Pyrolysis of Longkou Oil Shale with Thermal Bitumen as the Intermediate

Oil shale is an unconventional energy resource with high nitrogen content. In this study, XPS, GC–MS and ESI FT-ICR MS were carried out to investigate the nitrogen compound migration during pyrolysis, with thermal bitumen as the intermediate. The results showed that the yield of thermal bitumen was...

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Bibliographic Details
Published in:Energies (Basel) Vol. 16; no. 15; p. 5647
Main Authors: Shi, Jian, Yue, Changtao, Hou, Jili, Huang, Jiayu, Cao, Yali, Li, Weimin, Li, Shuyuan
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-08-2023
Subjects:
Ammonia
Analysis
Bituminous materials
Catalytic cracking
Caustic soda
Chromatography
Entropy
Experiments
Hydrochloric acid
Nitrogen
nitrogen components
NMR
Nuclear magnetic resonance
Oil shale
Oil-shales
Pyrolysis
Shale oils
Solvents
Temperature
thermal bitumen
China
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Summary:Oil shale is an unconventional energy resource with high nitrogen content. In this study, XPS, GC–MS and ESI FT-ICR MS were carried out to investigate the nitrogen compound migration during pyrolysis, with thermal bitumen as the intermediate. The results showed that the yield of thermal bitumen was highest when the reaction temperature was 380 °C. In the process of pyrolysis, amines and some nitrides generate ammonia gas due to the hydrogen transfer process, or they generate low-grade amines, which subsequently dissolve in pyrolysis water due to bond breakage during the pyrolysis process. As determined by GC–MS analyses, the basic components in shale oil are mainly quinoline compounds. Benzocarbazole and dibenzocarbazole compounds, such as C1-benzocarbazoles, C2-benzocarbazoles and C3-benzocarbazoles, were detected via ESI FT-ICR MS in thermal bitumen.
ISSN:1996-1073
1996-1073
DOI:10.3390/en16155647