269705 Mixed Rare Earth Oxides for Desulfurization and Tar Removal From Gasifier Effluents

Tuesday, October 30, 2012: 11:00 AM
335 (Convention Center )
Rui Li1, Michael J. Janik2, Matthew D. Krcha2 and Kerry M. Dooley1, (1)Chemical Engineering, Louisiana State University, Baton Rouge, LA, (2)Chemical Engineering, Pennsylvania State University, University Park, PA

The removal of H2S and tars from syngas generated in biomass or coal/biomass gasification plays an important role in syngas cleanup. Rare earth oxides (REOs, e.g., Ce/LaOx) mixed with transition metals (e.g., Mn, Fe, Ni) are promising materials for both sulfur removal and for tar reforming in the presence of some sulfur.  We have synthesized such materials by a variety of methods, including templated sol-gel, hydrothermal, incipient wetness coimpregnation, and evaporation-induced self assembly (EISA). These materials have been investigated for either H2S adsorption or tar reforming at high temperatures (~630-750ºC), using model syngas mixtures, a goal being to improve heat integration throughout the syngas process. Successive desulfurization-regeneration cycles using Mn/Ce/LaOx demonstrated good sulfur capacities can be obtained even in the presence of water and CO2, using just air for the regenerations. The limits of Mn incorporation into the REOs without bulk phase separation have been studied, and the sulfur adsorption has been modeled using DFT.  Naphthalene was used as a model compound for tar reforming/cracking, and the effects of H2S, CO, water and CO2 on its reactions have been examined. While H2S, water and CO2 are inhibitors, CO is not. Transition metal-doped REOs are more effective than the pure REOs, suggesting an important role of the transition metal in increasing the number of oxygen vacancies. We have also examined propane reforming in model syngas, because its surface behavior is easier to model by DFT.  Fresh, used and regenerated sorbents and catalysts have been characterized by BET, TPR, XRD, XANES and EXAFS.

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