| Popis: |
In order to explore the mechanism of inhibitor on coal spontaneous combustion, the oxygen-containing groups aldehyde (-CHO) and methoxy(-OCH3) in coal molecular side chain were selected as the subjects of the study. The geometric configuration, electrostatic potential, reaction tendency, frontier orbitals, natural bond orbitals and charge transfer of the oxygen-containing groups(-CHO and -OCH3) and their complexes with Na+, Ba2+ and Ca2+ were deeply studied by using Gaussian 16W simulation software. The results show that Na+, Ba2+ and Ca2+ tend to cooperate with the oxygen-containing groups to form complexes, which weakens the electrophilic reaction ability and disables the nucleophilic reaction ability of -CHO and -OCH3 oxygen-containing groups, thus reducing the chemical activity of oxygen-containing groups. Metal ions increase the energy level difference(ELOMO-EHOMO) and the absolute value of the highest occupied molecular orbital(HOMO) energy of oxygen-containing groups, and thereby increases the stability of oxygen-containing group. The results of natural bond orbital theory analysis(NBO) shows that -CHO and -OCH3 oxygen-containing groups can coordinate steadily with Na+, Ca2+ and Ba2+, and the electrons of O in the two the groups transfer to Na+, Ca2+ and Ba2+ to form coordinate bonds. The combination of oxygen-containing groups with metal ions reduces the chance of contact between oxygen-containing groups and oxygen, which inhibits coal spontaneous combustion. |
