Inhibition discrimination of different chloride salts on coal functional groups

To study the inhibition characteristics of different chloride salts on the spontaneous combustion of coal and to further reveal why magnesium chloride shows a different inhibitory effect, coal samples from FuSheng Coal Mine No. 15 in Shanxi Province were selected. Based on the characteristics of functional group absorption peak at different temperature, the composition changes and reactivity ranking of the functional groups in oxidized coal samples were tested by thermal oxidation experiments and infrared spectroscopy and analyzed to obtain the chain thermal reactions of different active groups. The weight-loss process and heat release characteristics of raw coal and three chloride salt-containing coal samples (sodium chloride, potassium chloride, and magnesium chloride) were compared and analyzed by synchronous thermal analysis experiments, and their inhibition reaction mechanism were studied. The results showed that different functional groups reacted at different lowtemperature stages, and the active groups containing C-H, O-H, C-O, and C = O bonds were important during the spontaneous combustion of coal. In the chain thermal reactions with different active groups, heat and oxidative cleavage of the C-O and O-H bonds determined the chain development of different functional groups, and the R center dot, RO center dot, H center dot, and center dot OH, chain thermal reaction products again acted as reactants that promoted further development of the reaction. Sodium chloride and potassium chloride played inhibitory roles in the dehydrationdesorption stage and dynamic equilibrium stage through water evaporation and heat absorption, while magnesium chloride participated in the whole coal-oxygen reaction process. The inhibitory mechanism included dehydration and heat absorption by MgCl2 center dot 6H(2)O, the complex dehydration of active groups containing O-H, the precipitation and oxygen insulation of [(SH center dot)(n)]Mg and Mg(OH)(2), the nucleophilic substitution of alpha-H for RCH3 and RCH2OH groups, and the formation of H...Cl...H bonds.

Automated summary

By studying the inhibition mechanism of different chloride salts on the spontaneous combustion of coal, it was found that different chloride salts have different inhibitory effects at different stages, and magnesium chloride participates in the entire coal-oxygen reaction process.