The thermal upgrading of two residual oils tory-scale continuous delayed coking unit. The goal with different characteristics was studied in a labora- was to investigate the influence of the process vari- ables such a...The thermal upgrading of two residual oils tory-scale continuous delayed coking unit. The goal with different characteristics was studied in a labora- was to investigate the influence of the process vari- ables such as temperature, reaction time and additive on liquid yield and products distribution. A maximum liquid yield of 73% was achieved compared to 69% with the commercial unit. This yield was even increased to 75% under the effect of an additive. The fractionation of liquid oil by simulated vacuum distillation showed a high yield of diesel (46.9%), compared to 28% for the commercial unit.展开更多
The Chemistry and Chemical Engineering School of Xiamen University has successfully developed the multi-walled nanotube catalyst with small and uniform diameter and has mastered the corresponding technology for manufa...The Chemistry and Chemical Engineering School of Xiamen University has successfully developed the multi-walled nanotube catalyst with small and uniform diameter and has mastered the corresponding technology for manufacture of carbon nanotube. It is learned that this technology has been for the first time developed inside ;and has reached the internationally advanced level with some indicators commanding a globally leading position.展开更多
文摘The thermal upgrading of two residual oils tory-scale continuous delayed coking unit. The goal with different characteristics was studied in a labora- was to investigate the influence of the process vari- ables such as temperature, reaction time and additive on liquid yield and products distribution. A maximum liquid yield of 73% was achieved compared to 69% with the commercial unit. This yield was even increased to 75% under the effect of an additive. The fractionation of liquid oil by simulated vacuum distillation showed a high yield of diesel (46.9%), compared to 28% for the commercial unit.
文摘The Chemistry and Chemical Engineering School of Xiamen University has successfully developed the multi-walled nanotube catalyst with small and uniform diameter and has mastered the corresponding technology for manufacture of carbon nanotube. It is learned that this technology has been for the first time developed inside ;and has reached the internationally advanced level with some indicators commanding a globally leading position.
