Modeling of double-loop fluidized bed solar reactor for efficient thermochemical fuel production
2017
Abstract A new model of solar reactor based on a double-loop fluidized bed involving CeO 2 nanoparticles and two gas streams, N 2 and CO 2 , for efficient thermochemical fuel production, is presented. The fluidized bed reactors are commonly used to carry out a variety of chemical reactions, due to solid granular materials, which play the fundamental role of catalyst. In the system under investigation, the overall reaction CO 2 →CO+1⁄2O 2 is achieved, by means of a thermochemical two-step cycle, based on CeO 2 nanoparticles. The first step (CeO 2 thermal reduction) has been implemented with a solar-driven endothermic dissociation of the metal oxide to lower-valence metal-oxide. The second step (CO 2 splitting) has been carried out with an exothermic oxidation of the reduced metal-oxide, which is produced in the first step, to form CO. The use of nanoparticles as catalyst allows maximizing the surface area of reaction, and at the same time, the reactor based on double-loop fluidized bed allows continuous operation, without alternating flows of inert sweep gas and CO 2 . The thermodynamic analysis of the system under investigation showed a calculated maximum ideal efficiency of about 63%.
Keywords:
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
55
References
10
Citations
NaN
KQI