Hydrogen is a clean, renewable secondary energy source. The development of hydrogen
energy is a common goal pursued by many countries to combat the current global warming …

Hydrogen is an energy carrier and thermochemical cycles are a sustainable and benign
method for hydrogen production. This study reviews and investigates thermochemical …

Based on finite time thermodynamic theory, a mathematical model of hydrogen iodide fixed
bed membrane reactor is constructed. Considering irreversibilities of chemical reaction, heat …

Hydrogen iodide decomposition is the core hydrogen production step in the sulfur-iodine
thermochemical cycle, which determines the hydrogen production rate and thermal …

HI x processing section of Iodine-Sulfur (IS) thermochemical cycle suffers from the
drawbacks of highly corrosive environment and a low thermodynamic conversion of HI …

Iodine–Sulfur (IS) thermochemical process involves several challenges, especially a highly
corrosive environment along with very low conversion of HI to hydrogen (∼ 22% at 450° C) …

The decomposition of hydrogen iodide in the thermochemical water splitting iodine–sulfur
process at an intermediate temperature (400° C) using a catalytic membrane reactor was …

This paper reviews aspects related to hydrogen as an energy carrier, starting with
discussing reasons for its use. Recent strategies developed for hydrogen production include …

Solar energy technology plays a pivotal role in the sustainable generation of hydrogen.
While traditional methods rely on fossil fuels like natural gas, coal, and oil, this study delves …

HI decomposition reaction in Iodine–Sulphur (IS) thermochemical process for hydrogen
production is one of the critical steps, which suffers from low equilibrium conversion. Metallic …