Thermochemical Cycles for High-Temperature Solar Hydrogen Production

It is expected that in the future hydrogen will play a major role in the storage, distribution, and usage of energy involving its various physical states: gaseous-solid hydride-cryogenic liquid. One of the most modern concepts for the production of hydrogen from water, thermochemical cycles, is revi

This paper discusses some potential low-temperature thermochemical and hybrid cycles for nuclear-based hydrogen production and considers them as a sustainable option for hydrogen production using nuclear process/ waste heat and off-peak electricity. We also assess their thermodynamic performance thr

Interest in the production of hydrogen continues because the many established and potential applications of hydrogen make it a viable candidate for alleviating the future energy shortage. The production of hydrogen from water by thermochemical cycles is generally viewed as an advanced technology; th

## Abstract The nuclear energy driven thermochemical cycle is one of the potential water‐splitting processes for producing hydrogen, presumed to be the transportation fuel of the future. A life cycle assessment (LCA) of one such system, which utilizes nuclear energy to drive the ISPRA Mark 9 thermo