Statements (36)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
Electrochemical cell
Fuel cell |
| gptkbp:advantage |
Low emissions
High operating temperature High efficiency Material degradation Fuel flexibility Long start-up time |
| gptkbp:alternativeTo |
gptkb:Molten_carbonate_fuel_cell
gptkb:Proton_exchange_membrane_fuel_cell |
| gptkbp:anodeMaterial |
Nickel-yttria stabilized zirconia
|
| gptkbp:application |
Auxiliary power units
Stationary power generation Combined heat and power |
| gptkbp:byproduct |
gptkb:water
gptkb:Heat |
| gptkbp:category |
Green technology
Energy technology Electrochemical engineering |
| gptkbp:cathodeMaterial |
Strontium-doped lanthanum manganite
|
| gptkbp:effect |
Up to 60% (electrical)
Up to 85% (combined heat and power) |
| gptkbp:electrolyteMaterial |
Yttria-stabilized zirconia
|
| gptkbp:fuelType |
gptkb:Hydrogen
gptkb:Biogas Natural gas |
| https://www.w3.org/2000/01/rdf-schema#label |
Solid oxide fuel cell
|
| gptkbp:inventedBy |
gptkb:Walther_Nernst
1930s |
| gptkbp:operatingSystem |
500–1,000°C
|
| gptkbp:usedIn |
Distributed generation
Military applications Remote power |
| gptkbp:usesElectrolyte |
Solid oxide
|
| gptkbp:bfsParent |
gptkb:Fuel_cell
|
| gptkbp:bfsLayer |
5
|