Add to ORKGNickel solid oxide fuel cell anodes are unsuitable for operation with dry natural gas because of carbon deposition. Results from steady state and temperature programmed experiments over an alternative anode material, La0.8Ca0.2CrO3-x, indicate that both complete oxidation of methane and surface methane dissociation occur at temperatures above 500 degrees C. Negligible carbon deposition occurs during complete oxidation.</p
Excellent thermal and mechanical stability, physical compatibility with electrolyte materials and re...
Solid oxide fuel cells (SOFCs) have grown in recognition as a viable technology able to convert chem...
A new SOFC anode material based upon oxygen excess perovskite related phases has been synthesised. T...
The perovskite oxide La0.8Ca0.2CrO3 was studied for application as a direct methane oxidation anode ...
A combination of temperature-programmed (TP) and isothermal experiments were performed on the candid...
Direct methane solid oxide fuel cells, operated by supplying methane to a Ni/YSZ anode, suffer from ...
The catalytic behaviour of La0.8Ca0.2CrO3 for use as a fuel cell anode has been investigated using t...
Solid oxide fuel cells (SOFCs) are promising power-generation systems to utilize methane or methane-...
In addition to pure hydrogen, solid oxide fuel cells (SOFCs) can utilize hydrocarbons as a fuel. How...
La1-xSrxCr1-yFeyO3-δ (x=0, 0.1, 0.15, 0.2; y=0, 0.3, 0.5) perovskite-type oxide powders were synthe...
Ni-based anodes of SOFCs are susceptible to coking, which greatly limits practical application of di...
Solid oxide fuel cells (SOFCs) are at the frontline of clean energy generation technologies to conve...
The present work investigates the performance and degradation mechanisms of a Ni-based anode suppor...
This work investigates the catalytic properties of Ni/YSZ anodes as electrodes of Solid Oxide Fuel C...
Because of its widespread availability, natural gas is the most important fuel for early application...
Excellent thermal and mechanical stability, physical compatibility with electrolyte materials and re...
Solid oxide fuel cells (SOFCs) have grown in recognition as a viable technology able to convert chem...
A new SOFC anode material based upon oxygen excess perovskite related phases has been synthesised. T...
The perovskite oxide La0.8Ca0.2CrO3 was studied for application as a direct methane oxidation anode ...
A combination of temperature-programmed (TP) and isothermal experiments were performed on the candid...
Direct methane solid oxide fuel cells, operated by supplying methane to a Ni/YSZ anode, suffer from ...
The catalytic behaviour of La0.8Ca0.2CrO3 for use as a fuel cell anode has been investigated using t...
Solid oxide fuel cells (SOFCs) are promising power-generation systems to utilize methane or methane-...
In addition to pure hydrogen, solid oxide fuel cells (SOFCs) can utilize hydrocarbons as a fuel. How...
La1-xSrxCr1-yFeyO3-δ (x=0, 0.1, 0.15, 0.2; y=0, 0.3, 0.5) perovskite-type oxide powders were synthe...
Ni-based anodes of SOFCs are susceptible to coking, which greatly limits practical application of di...
Solid oxide fuel cells (SOFCs) are at the frontline of clean energy generation technologies to conve...
The present work investigates the performance and degradation mechanisms of a Ni-based anode suppor...
This work investigates the catalytic properties of Ni/YSZ anodes as electrodes of Solid Oxide Fuel C...
Because of its widespread availability, natural gas is the most important fuel for early application...
Excellent thermal and mechanical stability, physical compatibility with electrolyte materials and re...
Solid oxide fuel cells (SOFCs) have grown in recognition as a viable technology able to convert chem...
A new SOFC anode material based upon oxygen excess perovskite related phases has been synthesised. T...