期刊
ACS OMEGA
卷 5, 期 3, 页码 1688-1697出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsomega.9b03780
关键词
-
资金
- Hokkaido Electric Power Co., Inc.
Our previous experimental study showed that Na+-exchanged coal prepared from low-cost natural soda ash is an excellent catalyst for steam gasification of low-rank coals using fixed-bed quartz reactors. However, it is difficult to experimentally clarify the effect of Na ion exchange on low-rank coal. In order to investigate the influence of Na(+)ions on low-rank coal, this study determined the electronic state between the Nat-exchanged coal model and raw coal model and compared them using RHF/6-311G* and B3LYP/6-316*. The experiments revealed that Na ion exchange has a significant effect on low-rank coal gasification. The model structure of low-rank coal is considered to change significantly in terms of the electronic state before and after Na exchange even with a simple main molecular structure. Molecular models where H of COOH/OH was ion-exchanged with one, two, and three Na+ ions were developed, and quantum chemical calculations were performed. The results showed that when the number of Na+-exchanged sites is increased, the electron state on the coal molecule becomes more negatively charged in the case of the Nat-exchange coal model. It is presumed that this contributes to enhancing the reactivity of low-rank coal and water vapor. In addition, weak bonds in the Nat-exchanged coal molecule were examined by calculating the difference in the value of the Mulliken and Lowdin bond orders before and after Na+ exchange. The results showed that the increase in the number of exchanged Na+ in the low-rank coal molecule model increased the number of weak bonds in the molecule. It is presumed that this contributes to enhancing the decomposition of low-rank coal.
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