Analysis of degradation mechanism of disperse orange 25 in supercritical water oxidation using molecular dynamic simulations based on the reactive force field
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- 作者:Jinli Zhang ; Jintao Gu ; You Han ; Wei Li ; Zhongxue Gan…
- 关键词:Dyeing wastewater ; Molecular dynamics ; Reaction mechanism ; ReaxFF ; Supercritical water oxidation
- 刊名:Journal of Molecular Modeling
- 出版年:2015
- 出版时间:March 2015
- 年:2015
- 卷:21
- 期:3
- 全文大小:2,186 KB
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Jintao Gu (1)
You Han (1)
Wei Li (1)
Zhongxue Gan (2)
Junjie Gu (3)
1. School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300072, China
2. State Key Laboratory of Low Carbon Energy of Coal, ENN Group, Langfang, 065001, Hebei Province, China
3. Mechanical and Aerospace Engineering, Carleton University, 1125 Colonel By Drive, Ottawa, Ontario, K1S5B6, Canada- 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Computer Applications in Chemistry
Biomedicine
Molecular Medicine
Health Informatics and Administration
Life Sciences
Computer Application in Life Sciences- 出版者:Springer Berlin / Heidelberg
- ISSN:0948-5023
- 作者单位:Jinli Zhang (1)
文摘
4-[N-(2-cyanoethyl)-N-ethylamino]-4-nitroazo-benzene (disperse orange 25, DO25) is one of the main components in dyeing wastewater. In this work, supercritical water oxidation (SCWO) process of DO25 has been investigated using the molecular dynamic simulations based on the reactive force field (ReaxFF). For the SCWO system, the effects of temperature, the molecular ratio of DO25, O2 and H2O as well as the reaction time have been analyzed. The simulated results showed that the aromatic rings in DO25 could be attacked by hydroxyl radical, oxygen molecule, and hydroxyl radical together with oxygen molecule, respectively, which caused the aromatic ring-opening reaction to happen mainly through three different pathways. The hydroxyl radicals were mainly from water clusters and H2O2 (which was produced from oxygen molecules reacting with water clusters). However, for the SCW system as comparison, the aromatic rings in DO25 could be attacked by hydroxyl radical only, and the OH radicals just come from water clusters. During the DO25 SCWO degradation process, we also found that N elements in one DO25 molecule were difficult to be converted into environmentally friendly N2 molecules because of steric hindrance, but increasing the number of DO25 molecules could improve the possibility for the connection of N elements, thus promoting N element converting into N2. Extending reaction time could also improve N elements in DO25 to transform into N2 rather than carbonitride. Graphical Abstract The processes of making DO25 wastewater by SCWO into clean water