Hydrogen is a fuel with enormous potential to meet the need for ecologically friendly energy
sources. Hydrogen from renewable sources can reroute renewable sources out of landfills …

The development of clean hydrogen production methods is important for large-scale
hydrogen production applications. The solar thermochemical water-splitting cycle is a …

A cogeneration energy system for green hydrogen and power production from algal biomass
and water as renewable sources is first developed and analyzed with engineering equation …

This paper aims to perform a systematic review, with a bibliometric approach, of the techno-
economic evaluation studies of hydrogen production. To achieve this objective, a …

The manuscript reviews the thermochemical water-splitting cycles not in general (many
other works have covered this topic) but specifically for producing hydrogen coupled with …

A novel hydrogen production system based on a sulfur-iodine (S–I) thermochemical water-
splitting cycle driven by 100% solar energy is proposed in this paper. A solar power tower …

Hydrogen production and liquefaction using solar thermo-electrochemical water splitting
systems can as an effective method for long-term renewable energy source storage are …

This comprehensive review delves into the burgeoning field of green hydrogen production
through the utilization of renewable resources. As the global demand for clean and …

This chapter describes the basic relations, components, classifications, and applications of
concentrating optical collector systems for solar thermal and thermochemical applications …

Thermochemical sulfur-iodine (SI) cycle is one of the large-scale, clean, and efficient
hydrogen production routes. The Bunsen reaction process is always simulated by a …