Master of Science (M.S.)
Degree Granting Department
Venkat Bhethanabotla, Ph.D.
John Kuhn, Ph.D.
Scott Campbell, Ph.D.
catalyst, pellet, perovskite oxide catalyst, SiO2 support
In order to solve the increasing greenhouse effect problem, perovskite-type oxides have been used to convert CO2 to CO in a reverse water-gas shift chemical looping (RWGS-CL) process. Currently, the process is at the micro-reactor scale and used catalyst in powder form. However, formed materials are needed if the scale is to be increased.
Our research focus is on increasing the conversion yield of perovskite oxides with SiO2 support and scaling up the powder form perovskite-type oxides to pellet by extrusion. The binder added during the extrusion process must be removed to avoid affecting the performance of the catalyst and to provide porosity, without substantially lowering the mechanical strength. X-ray diffraction was utilized to identify the crystal structure and determine the crystal stability after the conversion. Temperature programmed reduction (TPR) and temperature programmed oxidation (TPO) experiments were performed to identify the conversion temperature and redox properties of the materials.
The extrusion method used in this research uses only organic binder and water to assisted extrusion process, remove binder in the calcination to maintain the activity and conversion properties of the catalyst, while the mechanical strength of the pellet meets industrial requirements. Compared to pure perovskite-type oxides, sample La0.75Sr0.25FeO3 mixed with SiO2 (mass ratio was 50:50) had better conversion performance and stronger mechanical strength after extrusion.
Scholar Commons Citation
Li, Qian, "Extrusion of Perovskite Oxide/ Silica Composites for Thermochemical Carbon Dioxide Conversion" (2019). Graduate Theses and Dissertations.