The next generation of Concentrated Solar Power (CSP) plants are expected to operate at
higher temperatures than those currently in use, for improved efficiency and reduced cost of …

The supercritical carbon dioxide Brayton cycle is a promising power conversion option for
green energies, such as solar power and nuclear reactors. The material challenge is a …

FeCrAl alloy coatings are widely used for their excellent oxidation resistance at high
temperatures, but they can suffer from rapid material degradation due to breakaway …

Model Fe–Cr and Fe–Cr–Ni alloys were exposed to Ar–CO2 and Ar–CO2–H2O gas
mixtures at 650° C. While all alloys initially formed protective Cr2O3 scales, nucleation and …

The corrosion behavior of Fe (5− 20) Cr3Al2Si model alloys and the underlying mechanisms
after breakaway oxidation was investigated at 600° C. Rapid breakaway oxidation was …

The long-term corrosion behavior of three FeCrAl (Si) alloys has been investigated in two
environments (K 2 CO 3 and KCl+ H 2 O) at 600° C. The FeCrAl alloy experienced …

To facilitate development of supercritical CO 2 (sCO 2) power plants, a comparison of the
oxidation behavior of austenitic stainless steels and Ni-base alloys in sH 2 O and sCO 2 …

Both indirect‐and direct‐fired supercritical CO2 cycles for high‐efficiency power generation
are expected to have impurities that may greatly alter the compatibility of Fe‐and Ni‐based …

In this study, the effects of surface grinding and Si addition on the corrosion behaviors of Fe-
12Cr oxide dispersion strengthening (ODS) steels in supercritical carbon dioxide were …

Concentrating solar power plant designers are interested in supercritical CO 2 (sCO 2) for
the power block to achieve> 50% electrical efficiency at> 700° C. The goal of this project …