Ice-templating (freeze-casting) technique was applied to a novel class of geopolymercomposites containing Fe/Mn oxides, previously tested and reported in others works assynthetic oxygen carriers for chemical looping combustion (CLC), in order to obtain compositemonoliths with lamellar macro-porosities by unidirectional freezing of water-based sol-gel systems.Geopolymer-Fe/Mn oxides composites carriers were also produced as beads, suitable for fixedbed reactors, by an injection-solidification method in liquid nitrogen. After conditioning at 900 C,the temperature needed for CLC applications, the composite beads and monoliths possess similartotal porosity % and total pore volume, being 65% and 570 mm3 g?1, respectively, as well as aspecific surface area of around 2.4-2.9 m2/g.
Ice-templated geopolymer--Fe/Mn oxide composites conceived as oxygen carriers
Elettra Papa;Valentina Medri
;Annalisa Natali Murri;Francesco Miccio;E. Landi
2019
Abstract
Ice-templating (freeze-casting) technique was applied to a novel class of geopolymercomposites containing Fe/Mn oxides, previously tested and reported in others works assynthetic oxygen carriers for chemical looping combustion (CLC), in order to obtain compositemonoliths with lamellar macro-porosities by unidirectional freezing of water-based sol-gel systems.Geopolymer-Fe/Mn oxides composites carriers were also produced as beads, suitable for fixedbed reactors, by an injection-solidification method in liquid nitrogen. After conditioning at 900 C,the temperature needed for CLC applications, the composite beads and monoliths possess similartotal porosity % and total pore volume, being 65% and 570 mm3 g?1, respectively, as well as aspecific surface area of around 2.4-2.9 m2/g.| File | Dimensione | Formato | |
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