The effect of pressure on thermal decomposition of solid nitromethane via MD simulation

Li Zhang; Lang Chen

doi:10.7498/aps.62.138201

The effect of pressure on thermal decomposition of solid nitromethane via MD simulation

Li Zhang, Lang Chen^*

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

The thermal decomposition of solid nitromethane (NM) is studied by ReaxFF molecular dynamics simulations to obtain the time evolution of the mechanism of NM under high temperature and pressure. It is determined that the initial decomposition mechanism of NM is dependent on pressure effect. In the 0-3 GPa pressure regime, the initial reactions is the C-N bond dissociation and the unimolecular rearrangement connecting between NM and methyl nitrite isomers; in the 4-7 GPa, the initial pathways of NM are the intermolecular proton transfer and C-N, C-O bond rupture. In the secondary reactions step, several fragments, like H₂O, NO, NO₂, HONO, play a role of catalysis. The product decomposition of NM contains many different structures of carbon clusters, and the configuration of cluster is dependent on pressure.

Original language	English
Article number	138201
Journal	Wuli Xuebao/Acta Physica Sinica
Volume	62
Issue number	13
DOIs	https://doi.org/10.7498/aps.62.138201
Publication status	Published - 5 Jul 2013

Keywords

Carbon clusters
Effect of pressure
ReaxFF molecular dynamics
Thermal decomposition

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10.7498/aps.62.138201

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abstract = "The thermal decomposition of solid nitromethane (NM) is studied by ReaxFF molecular dynamics simulations to obtain the time evolution of the mechanism of NM under high temperature and pressure. It is determined that the initial decomposition mechanism of NM is dependent on pressure effect. In the 0-3 GPa pressure regime, the initial reactions is the C-N bond dissociation and the unimolecular rearrangement connecting between NM and methyl nitrite isomers; in the 4-7 GPa, the initial pathways of NM are the intermolecular proton transfer and C-N, C-O bond rupture. In the secondary reactions step, several fragments, like H2O, NO, NO2, HONO, play a role of catalysis. The product decomposition of NM contains many different structures of carbon clusters, and the configuration of cluster is dependent on pressure.",

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T1 - The effect of pressure on thermal decomposition of solid nitromethane via MD simulation

AU - Zhang, Li

AU - Chen, Lang

PY - 2013/7/5

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N2 - The thermal decomposition of solid nitromethane (NM) is studied by ReaxFF molecular dynamics simulations to obtain the time evolution of the mechanism of NM under high temperature and pressure. It is determined that the initial decomposition mechanism of NM is dependent on pressure effect. In the 0-3 GPa pressure regime, the initial reactions is the C-N bond dissociation and the unimolecular rearrangement connecting between NM and methyl nitrite isomers; in the 4-7 GPa, the initial pathways of NM are the intermolecular proton transfer and C-N, C-O bond rupture. In the secondary reactions step, several fragments, like H2O, NO, NO2, HONO, play a role of catalysis. The product decomposition of NM contains many different structures of carbon clusters, and the configuration of cluster is dependent on pressure.

AB - The thermal decomposition of solid nitromethane (NM) is studied by ReaxFF molecular dynamics simulations to obtain the time evolution of the mechanism of NM under high temperature and pressure. It is determined that the initial decomposition mechanism of NM is dependent on pressure effect. In the 0-3 GPa pressure regime, the initial reactions is the C-N bond dissociation and the unimolecular rearrangement connecting between NM and methyl nitrite isomers; in the 4-7 GPa, the initial pathways of NM are the intermolecular proton transfer and C-N, C-O bond rupture. In the secondary reactions step, several fragments, like H2O, NO, NO2, HONO, play a role of catalysis. The product decomposition of NM contains many different structures of carbon clusters, and the configuration of cluster is dependent on pressure.

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KW - Effect of pressure

KW - ReaxFF molecular dynamics

KW - Thermal decomposition

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The effect of pressure on thermal decomposition of solid nitromethane via MD simulation

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