An ionic liquid(IL),1-ethyl-3-methyl imidazolium tetrafluoroborate([Emim][BF_(4)]),was used to enhance bitumen recovery from oil sands by dichloromethane solvent extraction.A multiphase system could be formed by simpl...An ionic liquid(IL),1-ethyl-3-methyl imidazolium tetrafluoroborate([Emim][BF_(4)]),was used to enhance bitumen recovery from oil sands by dichloromethane solvent extraction.A multiphase system could be formed by simply mixing the components at ambient temperature,consisting of sands and clays,mixtures of ionic liquid and dichloromethane,and concentrated bitumen layer.The results demonstrated that[Emim][BF_(4)]increased the bitumen recovery up to 92%.Much less clay fines were found in the recovered bitumen than those formed by using dichloromethane solvent extraction alone,and the dichloromethane residue was not detected in the spent sands.We proposed that[Emim][BF_(4)]had an ability to reduce the adhesion of bitumen to sand,resulting in an improved separation efficiency.Furthermore,[Emim][BF_(4)]could facilitate the transfer of the extracted bitumen to the surface interface,and then the bitumen was auto-partitioned to a separate immiscible phase for ease of harvesting.This technology circumvented the issue of high consumption of distillation energy due to separation of bitumen phase and low boiling point of dichloromethane.[Emim][BF_(4)]and dichloromethane could be readily recycled through the system and used repeatedly.After ten cycles,the bitumen recovery remained above 88%.Initial scale-up work suggested that this approach would form the basis for a viable large-scale process.展开更多
The chemical components of dichloromethane extractives for Sawara Falsecypress heartwood were analyzed with GC/MS except for basic chemical composition analysis for heartwood with Chinese standard method. 14 kinds of ...The chemical components of dichloromethane extractives for Sawara Falsecypress heartwood were analyzed with GC/MS except for basic chemical composition analysis for heartwood with Chinese standard method. 14 kinds of compounds were idenfifjed according to the computer compounds library data. The major compounds in dichloromethane extractives comprised of terpene and naphthalene derivafives. The experiments of antifungal effects of the dichloromethane extractive on Aspergillus niger were also carded out. The result showed that the dichloromethane extractive from Sawara Falsecypress has no or weak antifungal capability.展开更多
基金The authors gratefully acknowledge the support from the National Natural Science Foundation of China(Grant No.21406101)the Key Research and Development Plan of Liaoning Province(Grant No.2020JH2/10300061).
文摘An ionic liquid(IL),1-ethyl-3-methyl imidazolium tetrafluoroborate([Emim][BF_(4)]),was used to enhance bitumen recovery from oil sands by dichloromethane solvent extraction.A multiphase system could be formed by simply mixing the components at ambient temperature,consisting of sands and clays,mixtures of ionic liquid and dichloromethane,and concentrated bitumen layer.The results demonstrated that[Emim][BF_(4)]increased the bitumen recovery up to 92%.Much less clay fines were found in the recovered bitumen than those formed by using dichloromethane solvent extraction alone,and the dichloromethane residue was not detected in the spent sands.We proposed that[Emim][BF_(4)]had an ability to reduce the adhesion of bitumen to sand,resulting in an improved separation efficiency.Furthermore,[Emim][BF_(4)]could facilitate the transfer of the extracted bitumen to the surface interface,and then the bitumen was auto-partitioned to a separate immiscible phase for ease of harvesting.This technology circumvented the issue of high consumption of distillation energy due to separation of bitumen phase and low boiling point of dichloromethane.[Emim][BF_(4)]and dichloromethane could be readily recycled through the system and used repeatedly.After ten cycles,the bitumen recovery remained above 88%.Initial scale-up work suggested that this approach would form the basis for a viable large-scale process.
基金This work was supported by the Foundation of Postdoctoral Research of Heilongjiang and Innovation Fund of Northeast Forestry University (DLCX2004019)
文摘The chemical components of dichloromethane extractives for Sawara Falsecypress heartwood were analyzed with GC/MS except for basic chemical composition analysis for heartwood with Chinese standard method. 14 kinds of compounds were idenfifjed according to the computer compounds library data. The major compounds in dichloromethane extractives comprised of terpene and naphthalene derivafives. The experiments of antifungal effects of the dichloromethane extractive on Aspergillus niger were also carded out. The result showed that the dichloromethane extractive from Sawara Falsecypress has no or weak antifungal capability.
