Battery-grade lithium carbonate(Li_(2)CO_(3))with a purity of higher than 99.5 wt%is of great importance as a high value-added lithium salt.However,influences of different reaction systems and process control on produ...Battery-grade lithium carbonate(Li_(2)CO_(3))with a purity of higher than 99.5 wt%is of great importance as a high value-added lithium salt.However,influences of different reaction systems and process control on product purity remain unclear.Herein,a membrane dispersion microreactor was used to enhance the mass transfer of preparation and purification processes in homogeneous and heterogeneous system.Synthetic systems of Na_(2)CO_(3)–LiCl,NH_(4)HCO_(3)–LiCl,and NH_(3)·H_(2)O−CO_(2)−LiCl,CO_(2)purification based on carbonation and decomposition were adopted.The Li_(2)CO_(3)purity was increased by the improvement of mixing performance.The carbonation time was reduced by 62.5%and 58.3%for the NH_(3)·H_(2)O−CO_(2)and CO_(2)purification systems,respectively.In the two ammonia-based systems,Li_(2)CO_(3)particles with a purity of 99.7–99.8 wt%were one-step prepared with a size of 3–5μm,which also met the requirement of the battery-grade standard.The purity was further increased to 99.9 wt%by CO_(2)purification and LiHCO_(3)decomposition.The investigation could provide a feasible alternative for the controllable preparation of battery-grade Li_(2)CO_(3)in one or multiple steps.展开更多
According to the latest figure supplied by Qinghai Province Economic and Informatization Commission,between January and August this year,Qinghai’s output of lithium carbonate is 7530 tonnes,output of cathode material...According to the latest figure supplied by Qinghai Province Economic and Informatization Commission,between January and August this year,Qinghai’s output of lithium carbonate is 7530 tonnes,output of cathode material is 5600 tonnes,output of lithium battery reaches 960MWh.As the scale of lithium battery industry fulfilled rapid expansion,Qinghai’s vision to build 100展开更多
基金the support from the National Natural Science Foundation of China(grant Nos.22278014,2227801521978008,21606008)the Innovation Fund of SIN0PEC Catalyst Co.Ltd-State Key Laboratory of Chemical Resource Engineering(grant No.36100000-22-ZC0607-0041).
文摘Battery-grade lithium carbonate(Li_(2)CO_(3))with a purity of higher than 99.5 wt%is of great importance as a high value-added lithium salt.However,influences of different reaction systems and process control on product purity remain unclear.Herein,a membrane dispersion microreactor was used to enhance the mass transfer of preparation and purification processes in homogeneous and heterogeneous system.Synthetic systems of Na_(2)CO_(3)–LiCl,NH_(4)HCO_(3)–LiCl,and NH_(3)·H_(2)O−CO_(2)−LiCl,CO_(2)purification based on carbonation and decomposition were adopted.The Li_(2)CO_(3)purity was increased by the improvement of mixing performance.The carbonation time was reduced by 62.5%and 58.3%for the NH_(3)·H_(2)O−CO_(2)and CO_(2)purification systems,respectively.In the two ammonia-based systems,Li_(2)CO_(3)particles with a purity of 99.7–99.8 wt%were one-step prepared with a size of 3–5μm,which also met the requirement of the battery-grade standard.The purity was further increased to 99.9 wt%by CO_(2)purification and LiHCO_(3)decomposition.The investigation could provide a feasible alternative for the controllable preparation of battery-grade Li_(2)CO_(3)in one or multiple steps.
文摘According to the latest figure supplied by Qinghai Province Economic and Informatization Commission,between January and August this year,Qinghai’s output of lithium carbonate is 7530 tonnes,output of cathode material is 5600 tonnes,output of lithium battery reaches 960MWh.As the scale of lithium battery industry fulfilled rapid expansion,Qinghai’s vision to build 100