Add to ORKGSolar thermal chemical research at Valparaiso University focuses on using concentrated solar energy to produce hydrogen, which can be used to generate electricity in fuel cells. A two-step solar electrolytic process has been proposed for chemical systems such as Fe2O3/Fe3O4, Co3O4/CoO, and Mn2O3/MnO. This new process produces hydrogen using ideally 63-82% less electricity than the traditional electrolytic process. Theoretical solar-to-electrical efficiencies are approximately 19-40%, a range comparable to similar solar thermal chemical processes. Preliminary experimental work with the Fe2O3/Fe3O4 system has validated the chemical possibility of each step of the process. Future work seeks to determine if the proposed processes are all chemic...
Thermochemical water splitting cycles remain a promising approach to produce hydrogen from water usi...
The first technical developments on thermochemical cycles for hydrogen production are based on the u...
Decomposition of sulphuric acid is a key step of sulphur based thermochemical cycles for hydrogen pr...
Solar thermal chemical research at Valparaiso University focuses on using concentrated solar energy ...
The solar research team at Valparaiso University is developing solar thermal chemical processes that...
The Valparaiso University Solar Research Project utilizes a solar thermal decoupled electrolysis pro...
A new concept for a solar thermal electrolytic process was developed for the production of H-2 from ...
The use of solar energy to produce hydrogen from water is an attractive concept that merits a contin...
A solar thermal reactor has been designed to experimentally investigate promising paths for reducing...
High temperature electrolysis is considered as a promising process for a sustainable hydrogen produc...
International audienceThis paper presents a process analysis of ZnO/Zn, Fe3O4/FeO and Fe2O3/Fe3O4 th...
Solar energy is going to play a crucial role in the future energy scenario of the world that conduct...
A two-step thermo-chemical cycle process for solar hydrogen production from water has been developed...
Various methods of water-splitting with use of solar energy are reviewed and compared to each other....
Hydrogen produced from solar energy is one of the most promising solar energy technologies that can ...
Thermochemical water splitting cycles remain a promising approach to produce hydrogen from water usi...
The first technical developments on thermochemical cycles for hydrogen production are based on the u...
Decomposition of sulphuric acid is a key step of sulphur based thermochemical cycles for hydrogen pr...
Solar thermal chemical research at Valparaiso University focuses on using concentrated solar energy ...
The solar research team at Valparaiso University is developing solar thermal chemical processes that...
The Valparaiso University Solar Research Project utilizes a solar thermal decoupled electrolysis pro...
A new concept for a solar thermal electrolytic process was developed for the production of H-2 from ...
The use of solar energy to produce hydrogen from water is an attractive concept that merits a contin...
A solar thermal reactor has been designed to experimentally investigate promising paths for reducing...
High temperature electrolysis is considered as a promising process for a sustainable hydrogen produc...
International audienceThis paper presents a process analysis of ZnO/Zn, Fe3O4/FeO and Fe2O3/Fe3O4 th...
Solar energy is going to play a crucial role in the future energy scenario of the world that conduct...
A two-step thermo-chemical cycle process for solar hydrogen production from water has been developed...
Various methods of water-splitting with use of solar energy are reviewed and compared to each other....
Hydrogen produced from solar energy is one of the most promising solar energy technologies that can ...
Thermochemical water splitting cycles remain a promising approach to produce hydrogen from water usi...
The first technical developments on thermochemical cycles for hydrogen production are based on the u...
Decomposition of sulphuric acid is a key step of sulphur based thermochemical cycles for hydrogen pr...