A two-step solar thermochemical cycle based on Co 3 O 4/CoO redox reactions integrated
into an Air Brayton cycle is considered for thermochemical heat storage. The two-step cycle …

A two-step solar thermochemical cycle based on Co 3 O 4/CoO redox reactions integrated
into an Air Brayton cycle is considered for thermochemical heat storage. The two-step cycle …

Solar electricity production via an Air Brayton cycle is considered with integrated
thermochemical energy storage. The storage is realized via a two-step solar thermochemical …

Abstract Solar-driven CO 2/H 2 O splitting via a two-step solar thermochemical cycle is a
promising approach for fuel production and carbon neutrality to address the intermittent …

A transient three-dimensional heat transfer model is developed for a 3 kWth solar
thermochemical reactor for H2O and CO2 splitting via two-step nonstoichiometric ceria …

Thermochemical energy storage (TCES) systems utilize reversible reactions to store solar
energy in chemical form. The present work focuses on the cobalt/cobaltous oxide (Co 3 O …

A solar reactor consisting of a cavity-receiver containing a reticulated porous ceramic (RPC)
foam made of CeO 2 is considered for effecting the splitting of H 2 O and CO 2 via a …

A prototype 4 kW solar thermochemical reactor for the continuous splitting of carbon dioxide
via the isothermal ceria redox cycle is demonstrated. These first tests of the new reactor …

Heat transfer is predicted for a solid-solid heat recuperation system employed in a novel
directly-irradiated solar thermochemical reactor realizing a metal oxide based …

For nonstoichiometric redox reactions that produce CO and H 2 from CO 2 and H 2 O, heat
recuperation from the solid phase is a promising mechanism to improve the cycle efficiency …