A new method of synthesis of 2 methyl 1 benzyl benzimidazole starting from 2 methyl benzimdazole and benzyl bromide was reported with KF Al 2O 3 as catlyst and DMF as solution.The influence of some reaction condition ...A new method of synthesis of 2 methyl 1 benzyl benzimidazole starting from 2 methyl benzimdazole and benzyl bromide was reported with KF Al 2O 3 as catlyst and DMF as solution.The influence of some reaction condition on yield was also tested,and the optimum conditions were obtained,the molecular ratio of catlyst and 2 methyl benzimdazole and benzyl bromide 1∶1∶1 05,the reaction temperature 20-25,and the yield 70 8%.展开更多
KF or K2CO3 was added into the 1-butanol-water system and two phases were formed: water-rich phase (water phase) and 1-butanol-rich phase (1-butanol phase). The liquid liquid equilibrium (LLE) data for 1-butano...KF or K2CO3 was added into the 1-butanol-water system and two phases were formed: water-rich phase (water phase) and 1-butanol-rich phase (1-butanol phase). The liquid liquid equilibrium (LLE) data for 1-butanol-water-KF and 1-butanol-water-K2CO3 systems were measured at 25℃ and showed that 1-butanol phase contained negligible salt and water phase contained negligible 1-butanol when the concentrations of KF and K2CO3 in the water phase were equal to or higher than 27.11% and 31.68% , respectively. Thus water could be separated efficiently from 1-butanol-water by adding KF or K2CO3 into the system. A theoretical calculation of LLE data was calculated by using the Pitzer theory to get water activity in the water phase, and by the models, such as the Wilson, NRTL or the UNIQUAC for the 1-butanol phase. For 1-hutanol-water-KF system, the experimental data were found in good agreement with the calculated results by using Pitzer theory and Wilson equa tion, while for 1-butanol-water-K2CO3 system, the experimental data were found in good agreement with the calculated results by using Pitzer theory and UNIQUAC eauation.展开更多
文摘A new method of synthesis of 2 methyl 1 benzyl benzimidazole starting from 2 methyl benzimdazole and benzyl bromide was reported with KF Al 2O 3 as catlyst and DMF as solution.The influence of some reaction condition on yield was also tested,and the optimum conditions were obtained,the molecular ratio of catlyst and 2 methyl benzimdazole and benzyl bromide 1∶1∶1 05,the reaction temperature 20-25,and the yield 70 8%.
文摘KF or K2CO3 was added into the 1-butanol-water system and two phases were formed: water-rich phase (water phase) and 1-butanol-rich phase (1-butanol phase). The liquid liquid equilibrium (LLE) data for 1-butanol-water-KF and 1-butanol-water-K2CO3 systems were measured at 25℃ and showed that 1-butanol phase contained negligible salt and water phase contained negligible 1-butanol when the concentrations of KF and K2CO3 in the water phase were equal to or higher than 27.11% and 31.68% , respectively. Thus water could be separated efficiently from 1-butanol-water by adding KF or K2CO3 into the system. A theoretical calculation of LLE data was calculated by using the Pitzer theory to get water activity in the water phase, and by the models, such as the Wilson, NRTL or the UNIQUAC for the 1-butanol phase. For 1-hutanol-water-KF system, the experimental data were found in good agreement with the calculated results by using Pitzer theory and Wilson equa tion, while for 1-butanol-water-K2CO3 system, the experimental data were found in good agreement with the calculated results by using Pitzer theory and UNIQUAC eauation.