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Simulations on coal water slurry gasification by molecular dynamics method with ReaxFF
by
Zhou, Junjie
, Li, Zhicong
, Niu, Xin
, Xu, Yanyan
, Wang, Juan
, Tang, Songzhen
in
activation energy
/ Characterization and Evaluation of Materials
/ Chemical bonds
/ chemical industry
/ Chemical reactions
/ Chemistry
/ Chemistry and Materials Science
/ Coal
/ Coal gasification
/ Computer Appl. in Life Sciences
/ Computer Applications in Chemistry
/ computer software
/ Decomposition reactions
/ Electric fields
/ Energy consumption
/ Fragments
/ Free radicals
/ Gases
/ Lignite
/ liquids
/ Molecular dynamics
/ Molecular Medicine
/ Molecular structure
/ Nitrogen
/ Original Paper
/ Oxidation
/ pollution
/ Python
/ Reaction products
/ Slurries
/ Software
/ Synthesis gas
/ Tar
/ Temperature
/ Theoretical and Computational Chemistry
2024
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Simulations on coal water slurry gasification by molecular dynamics method with ReaxFF
by
Zhou, Junjie
, Li, Zhicong
, Niu, Xin
, Xu, Yanyan
, Wang, Juan
, Tang, Songzhen
in
activation energy
/ Characterization and Evaluation of Materials
/ Chemical bonds
/ chemical industry
/ Chemical reactions
/ Chemistry
/ Chemistry and Materials Science
/ Coal
/ Coal gasification
/ Computer Appl. in Life Sciences
/ Computer Applications in Chemistry
/ computer software
/ Decomposition reactions
/ Electric fields
/ Energy consumption
/ Fragments
/ Free radicals
/ Gases
/ Lignite
/ liquids
/ Molecular dynamics
/ Molecular Medicine
/ Molecular structure
/ Nitrogen
/ Original Paper
/ Oxidation
/ pollution
/ Python
/ Reaction products
/ Slurries
/ Software
/ Synthesis gas
/ Tar
/ Temperature
/ Theoretical and Computational Chemistry
2024
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Simulations on coal water slurry gasification by molecular dynamics method with ReaxFF
by
Zhou, Junjie
, Li, Zhicong
, Niu, Xin
, Xu, Yanyan
, Wang, Juan
, Tang, Songzhen
in
activation energy
/ Characterization and Evaluation of Materials
/ Chemical bonds
/ chemical industry
/ Chemical reactions
/ Chemistry
/ Chemistry and Materials Science
/ Coal
/ Coal gasification
/ Computer Appl. in Life Sciences
/ Computer Applications in Chemistry
/ computer software
/ Decomposition reactions
/ Electric fields
/ Energy consumption
/ Fragments
/ Free radicals
/ Gases
/ Lignite
/ liquids
/ Molecular dynamics
/ Molecular Medicine
/ Molecular structure
/ Nitrogen
/ Original Paper
/ Oxidation
/ pollution
/ Python
/ Reaction products
/ Slurries
/ Software
/ Synthesis gas
/ Tar
/ Temperature
/ Theoretical and Computational Chemistry
2024
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Simulations on coal water slurry gasification by molecular dynamics method with ReaxFF
Journal Article
Simulations on coal water slurry gasification by molecular dynamics method with ReaxFF
2024
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Overview
Context
Coal water slurry (CWS) is a new type of liquid coal product with low pollution, which is mainly used in the chemical industry to produce syngas (CO + H
2
). It is of great significance to study the microscopic mechanism of CWS gasification reaction for improving the efficiency of coal gasification. In this paper, the method of molecular dynamics based on reaction force fields (ReaxFF-MD) is used to study the gasification process of CWS/O
2
system at different temperatures. The results show that, in the range of 1600–2400 K, the macromolecular network structure of lignite is decomposed into a large number of small molecular structures and a small number of light tar free radical fragments, and the types and quantities of reaction products increased rapidly. At 2400–4000 K, the free radical fragments of light tar are further decomposed and reacted with gasification agents, but the types and quantities of reaction products have little change. At 3600 K, a full gasification reaction occurred in the system, and the content of syngas is the highest.
Methods
The model was established and optimized by Materials Studio (MS) software. Based on ReaxFF-MD method, Lammps software was used to simulate the gasification process of CWS/O
2
system, and the reaction force field files containing C, H, O, N, and S element were used. By calculating the activation energy of gasification reaction, the rationality of the model and calculation method was illustrated. The post-processing of the results was implemented using OVITO, ChemDraw software, and self-programmed Python scripts.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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