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Which reaction pathways govern the decomposition of sulfur-containing compounds during pyrolysis of fossil and waste resources

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MLA
Aerssens, Jeroen, et al. “Which Reaction Pathways Govern the Decomposition of Sulfur-Containing Compounds during Pyrolysis of Fossil and Waste Resources.” ISCRE 27 : The 27th International Symposium for Chemical Reaction Engineering, Abstracts, 2023.
APA
Aerssens, J., Pappijn, C., Van de Vijver, R., Reyniers, M.-F., & Van Geem, K. (2023). Which reaction pathways govern the decomposition of sulfur-containing compounds during pyrolysis of fossil and waste resources. ISCRE 27 : The 27th International Symposium for Chemical Reaction Engineering, Abstracts. Presented at the 27th International Symposium for Chemical Reaction Engineering (ISCRE27), Québec City, Canada.
Chicago author-date
Aerssens, Jeroen, Cato Pappijn, Ruben Van de Vijver, Marie-Françoise Reyniers, and Kevin Van Geem. 2023. “Which Reaction Pathways Govern the Decomposition of Sulfur-Containing Compounds during Pyrolysis of Fossil and Waste Resources.” In ISCRE 27 : The 27th International Symposium for Chemical Reaction Engineering, Abstracts.
Chicago author-date (all authors)
Aerssens, Jeroen, Cato Pappijn, Ruben Van de Vijver, Marie-Françoise Reyniers, and Kevin Van Geem. 2023. “Which Reaction Pathways Govern the Decomposition of Sulfur-Containing Compounds during Pyrolysis of Fossil and Waste Resources.” In ISCRE 27 : The 27th International Symposium for Chemical Reaction Engineering, Abstracts.
Vancouver
1.
Aerssens J, Pappijn C, Van de Vijver R, Reyniers M-F, Van Geem K. Which reaction pathways govern the decomposition of sulfur-containing compounds during pyrolysis of fossil and waste resources. In: ISCRE 27 : the 27th International Symposium for Chemical Reaction Engineering, Abstracts. 2023.
IEEE
[1]
J. Aerssens, C. Pappijn, R. Van de Vijver, M.-F. Reyniers, and K. Van Geem, “Which reaction pathways govern the decomposition of sulfur-containing compounds during pyrolysis of fossil and waste resources,” in ISCRE 27 : the 27th International Symposium for Chemical Reaction Engineering, Abstracts, Québec City, Canada, 2023.
@inproceedings{01H6P2TRXPM6DZKD5H7HMDKS6W,
  author       = {{Aerssens, Jeroen and Pappijn, Cato and Van de Vijver, Ruben and Reyniers, Marie-Françoise and Van Geem, Kevin}},
  booktitle    = {{ISCRE 27 : the 27th International Symposium for Chemical Reaction Engineering, Abstracts}},
  language     = {{eng}},
  location     = {{Québec City, Canada}},
  title        = {{Which reaction pathways govern the decomposition of sulfur-containing compounds during pyrolysis of fossil and waste resources}},
  year         = {{2023}},
}