Pl. Politechniki 1
Warsaw, 00-661
Poland
Warsaw University of Technology
Heat recovery, Supercritical CO2, Brayton cycle, Modelling
heat recovery, supercritical CO2, Brayton cycle, modelling, off-design, characteristics
MCFC, Cathode, performance, pore size, nickel foam, Efficiency
MCFC, cathode, Performance, pore size, nickel foam, efficiency
molten carbonate fuel cell (MCFC), solid electrolyte support matrix, electrolyte materials science, high-temperature fuel cells, energy conversion efficiency
Electrolysis, solid oxide fuel cell, solid oxide electrolysis, power-to-gas
fuel cells, Electrolytes, Mathematical Modeling, boron, Medium temperature, Performance prediction
proton conducting solid oxide fuel cells, reverse operation, electrolysis mode hydrogen production, X-ray imaging, anode layer porosity, material property analysis
STES, heat management, dynamic simulation, control strategy
STES, heat management, Dynamic simulation, Control strategy