Structured composite catalyst Pd/Ce0.75Zr0.25O2-x/θ-Al2O3/FeCrAlloy for complete oxidation of methane

“…The aluminum oxide surface shell formed by an initial oxidation treatment of the alloys protects from further inner oxidation, thus allowing FeCrAl alloy support to be available under high-temperature reaction conditions. To date, FeCrAl alloy supports have been used in several catalytic reactions involving methane oxidation, [3][4][5][6][7][8] selective catalytic reduction (SCR) of NO x , 9 CO oxidation, 10 methanation, 11 reforming, [12][13][14][15][16] and Fischer-Tropsch synthesis. 17 In our previous work, we used an intermetallic compound Ti 6 Si 7 Ni 16 with a high specic surface area (37.5 m 2 g −1 ) as catalyst support in CO methanation.…”

Molten salt synthesis of CrMnFeNi alloy nanopowder passivated by TiO_x–ZrO_y shell used as a superior catalyst support in liquid-phase hydrogenation

“…The aluminum oxide surface shell formed by an initial oxidation treatment of the alloys protects from further inner oxidation, thus allowing FeCrAl alloy support to be available under high-temperature reaction conditions. To date, FeCrAl alloy supports have been used in several catalytic reactions involving methane oxidation, [3][4][5][6][7][8] selective catalytic reduction (SCR) of NO x , 9 CO oxidation, 10 methanation, 11 reforming, [12][13][14][15][16] and Fischer-Tropsch synthesis. 17 In our previous work, we used an intermetallic compound Ti 6 Si 7 Ni 16 with a high specic surface area (37.5 m 2 g −1 ) as catalyst support in CO methanation.…”

Molten salt synthesis of CrMnFeNi alloy nanopowder passivated by TiO_x–ZrO_y shell used as a superior catalyst support in liquid-phase hydrogenation

“…The drawback of the most promising carbon forms is that they often fall into the nano range in more dimensions, which makes their use difficult on an industrial scale (especially in fixed-bed catalytic reactions) and, last but not least, makes them dangerous to handle (e.g., inhalation). Consequently, it is important to search for and develop methods that allow the large-scale synthesis of carbon nanostructures and their direct macroscopic sizing for immobilization [6,[22][23][24][25]. Structured catalyst support with oxygenated functional groups from commercial graphite felt (OFG) raw material was prepared and applied in Pd/OFG catalyst synthesis, which was tested through the liquid-phase hydrogenation of cinnamaldehyde and it was found that the system expressed excellent catalytic activity, and stability as well as recyclability [26].…”

Development of Palladium and Platinum Decorated Granulated Carbon Nanocomposites for Catalytic Chlorate Elimination

Tailoring the textural and component properties of Mo-Bi based catalysts for the selective oxidation of tert-butanol to methacrolein by the assistance of polymethymethacrylate