Not exact matches
Solar
Thermochemical CO2 Splitting Utilizing a Reticulated Porous Ceria
Redox System Philipp Furler, Jonathan Scheffe, Michael Gorbar, Louis Moes, Ulrich Vogt and Aldo Steinfeld Energy & Fuels, 26 (11): 7051 - 7059, Washington, DC: American Chemical Society, 2012.
Cobalt Oxide Based Honeycombs as Reactors / Heat Exchangers for
Redox Thermochemical Heat Storage in Future CSP Plants
A High - flux Optical Valve for Quasi-continuous Solar
Thermochemical Splitting of CO2 and H2O with Alternating
Redox Reactions
Thermochemical Storage for CSP via
Redox Structured Reactors / Heat Exchangers: the RESTRUCTURE Project
Solar hydrogen production via sulphur based
thermochemical water - splitting C Sattler, M Roeb, C Agrafiotis, D Thomey — Solar Energy, 2017 — Elsevier The first technical developments on
thermochemical cycles for hydrogen production are based on the use of sulphur as a
redox material.
Work is in progress for advanced
thermochemical storage systems based on
redox cycles for parabolic troughs and central receivers [14].