Preparation and characterization of metallic catalyst using wire arc spraying and its application in partial oxidation of methane

“…Conventional thermal methods for CPOM typically require a high temperature (up to 1000 • C) and pressure (>10 atm), which limit the industrial applications. In addition, the stability of catalysts is still a matter of concern, despite intense investigation of CPOM over metallic catalysts [9][10][11]. The general observation is that metallic catalysts suffer from deactivation due to sintering and metal loss via the formation of volatile metal oxides [12][13][14][15][16].…”

Catalytic nonthermal plasma assisted co-processing of methane and nitrous oxide for methanol production

“…Conventional thermal methods for CPOM typically require a high temperature (up to 1000 • C) and pressure (>10 atm), which limit the industrial applications. In addition, the stability of catalysts is still a matter of concern, despite intense investigation of CPOM over metallic catalysts [9][10][11]. The general observation is that metallic catalysts suffer from deactivation due to sintering and metal loss via the formation of volatile metal oxides [12][13][14][15][16].…”

Catalytic nonthermal plasma assisted co-processing of methane and nitrous oxide for methanol production

“…The catalysts reported to be active in the POM reaction to syngas are noble metals or Ni-based catalysts [5][6][7][8][9][10][11][12][13][14]. Ni catalysts seem to be the most interesting due to their lower cost, availability, and commercial attractiveness for the POM.…”

A Novel Catalyst Preparation Technique to Improve Performance of Ni/γ-Al2O3 Catalysts in Partial Oxidation of Methane

wire arc spraying