Catalytic Material Database

Catalyst: 17% NiFe(3:1)/Al2O3

Reaction Type: methanation

Substrates: CO2 , H2

Main product: CH4

Reaction Conditions

Reaction: CO2 methanation

Temperature: 250 oC

Pressure: 1 atm

Flow Gas Composition: 10% CO2, 40% H2, 50% N2

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 21%

Selectivity: 96%

Yield: 20%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: dcc93078-3d93-4bbc-b02c-3e0da058bec6

Reaction: CO2 methanation

Temperature: 300 oC

Pressure: 1 atm

Flow Gas Composition: 10% CO2, 40% H2, 50% N2

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 76%

Selectivity: 100%

Yield: 76%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: 9b6b0b9f-4c17-4c60-bf87-ac939e391662

Reaction: CO2 methanation

Temperature: 350 oC

Pressure: 1 atm

Flow Gas Composition: 10% CO2, 40% H2, 50% N2

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 82%

Selectivity: 100%

Yield: 82%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: 89b0b695-bfe0-4b77-9554-ab824710014b

Reaction: CO2 methanation

Temperature: 450 oC

Pressure: 1 atm

Flow Gas Composition: 10% CO2, 40% H2, 50% N2

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 71%

Selectivity: 99%

Yield: 70%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: 1647938c-54b0-41c4-b87d-81948eb9ede5

Reaction: CO2 methanation

Temperature: 250 oC

Pressure: 10 atm

Flow Gas Composition: 10% CO2, 40% H2, 5% N2, 45% He

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 87%

Selectivity: 100%

Yield: 87%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: 4fd8be48-56dc-4f1a-8079-4724e07c2508

Reaction: CO2 methanation

Temperature: 300 oC

Pressure: 10 atm

Flow Gas Composition: 10% CO2, 40% H2, 5% N2, 45% He

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 95%

Selectivity: 100%

Yield: 95%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: bb65cb0e-98b5-4d80-9fa5-619ebb71a502

Reaction: CO2 methanation

Temperature: 350 oC

Pressure: 10 atm

Flow Gas Composition: 10% CO2, 40% H2, 5% N2, 45% He

Gas Flowrate: 300 mL/min

GHSV: 13400 h-1

Catalyst mass: 300 mg

TOF: no data

Conversion: 96%

Selectivity: 100%

Yield: 96%

Article: Potential of an Alumina-Supported Ni3Fe Catalyst in the Methanation of CO2: Impact of Alloy Formation on Activity and Stability

Id: ab9219b3-0d50-4776-8e63-80ed756e9310