Inhibition mechanism of phosphorus-containing inhibitor on coal dust pyrolysis during explosions using in-situ Py-TOF-MS

[Display omitted] •In-situ Py-TOF-MS is used to study the inhibition mechanism of PA@NH2-MCM41 on dust explosions.•The pyrolysis products of PA@NH2-MCM41 mainly include [(HO)2PO]2O, PO(OH)3, and HOPO2, etc.•PA@NH2-MCM41 demonstrates outstanding performance in both thermal and chemical effects. Under...

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Bibliographic Details
Published in:Chemical engineering science 2024-07, Vol.293, p.120072, Article 120072
Main Authors: Zhao, Fengyu, Gao, Wei, Jiang, Haipeng, Jin, Songling, Zhang, Zongling, Nie, Zhongheng
Format: Article
Language:English
Subjects:
Coal dust explosion
Inhibition mechanism
P-containing inhibitor
Time-of-flight mass spectrometry
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Summary:[Display omitted] •In-situ Py-TOF-MS is used to study the inhibition mechanism of PA@NH2-MCM41 on dust explosions.•The pyrolysis products of PA@NH2-MCM41 mainly include [(HO)2PO]2O, PO(OH)3, and HOPO2, etc.•PA@NH2-MCM41 demonstrates outstanding performance in both thermal and chemical effects. Understanding the inhibition mechanism of coal dust explosions is of great significance for the development of high-efficiency inhibitors and effective protection against explosion accidents. In this study, a novel phosphorus-containing composite PA@NH2-MCM41 was synthesized. The pyrolysis characteristics and the products of coal, coal/PA@NH2-MCM41, and PA@NH2-MCM41 were analyzed using in-situ pyrolysis time-of-flight mass spectrometry (in-situ Py-TOF-MS) and TG-DSC. The results show that the addition of PA@NH2-MCM41 can significantly reduce the content of light gases and organic volatiles released from coal pyrolysis. P-containing species are intensively released at 200–350 ℃. The pyrolysis components of PA@NH2-MCM41 mainly include [(HO)2PO]2O, PO(OH)3, and HOPO2, etc. These P-containing species can effectively terminate the chain reaction by combining H and OH radicals. In addition, PA@NH2-MCM41 has the potential to facilitate the formation of dense carbon layers of coal dust particles to hinder the pyrolysis and ignition of coal dust.
ISSN:0009-2509
DOI:10.1016/j.ces.2024.120072