Coal dissolution by heat treatments in N-methyl-2-pyrrolidinone, 1,4,5,8,9,10-hexahydroanthracene, and their mixed solvents: A large synergistic effect of the mixed solvents

Heat treatments of coals of various ranks were carried out in a dipolar apr otic solvent of N-methyl-2-pyrrolidinone (NMP) and a strong hydrogen-donati ng solvent of 1,4,5,8,9,10-hexahydroanthracene (HHA) at 175-300 degrees C u nder N-2 atmosphere. Dissolution yields were obtained using carbon disulfid e/N-methyl-2-pyrrolidinone (CS2/NMP) mixed solvent (1:1 by volume) as an ex traction solvent for the heat-treated coals. Considerable high dissolution yields were obtained for several coals even at temperatures as low as 175-3 00 degrees C. For the lower rank coals (C wt %, daf < 85 wt %) used, the di ssolution yields in NMP and HHA increased with increasing temperature from 175 degrees C to 300 degrees C. The dissolution yields (38.2-78.1 wt %, daf ) obtained in NMP were higher than those obtained in HHA. While, for Upper Freeport coal of higher rank (C% > 85 wt %, daf), a very high dissolution y ield of 82.5 wt % was obtained in NMP at 175 degrees C, but it did not incr ease with increasing temperature to 300 degrees C and was lower than that i n HHA. Similar results were observed for the other higher rank coal. NMP/HH A mixed solvents were found to show a large synergistic effect on the disso lution yields for all the coals used. An amount of 96.4 wt % of Banko coal was dissolved after the heat treatment in NMP/HHA mixed solvent (9/1 by wei ght) at 300 degrees C, which is much higher than 59.1 wt % in NMP and 44.5 wt % in HHA alone. It is also found that the extent of such synergistic eff ects is highly coal-rank-dependent. The mechanisms for the dissolution reac tion in NMP, HHA, and NMP/HHA mixed solvents were discussed.