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

In this study, a novel integrated structure for generation of the oxygen, hydrogen, power, and
hot water by employing thermochemical reactors and solar dish collectors is proposed. The …

The main aim of the paper is to determine a theoretical range of operational conditions for
the three chemical reactions of the Nasingle bondOsingle bondH (sodium-oxygen …

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 …

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 …

Inorganic microporous materials have shown promise for the fabrication of membranes with
chemical stability and resistance to high temperatures. Silicon-carbide (SiC) has been …

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) …

In this era, renewable energy technologies are suitable to meet the challenges of fossil fuel
depletion and global warming. Thus, hydrogen is gaining attention as an alternative clean …

A series of bimetallic 10% Ni-xIr/C (x= 0.5, 1.0, 1.5, 2.0 wt%) and monometallic 10% Ni/C
and 2% Ir/C catalysts were prepared through the impregnation–reduction method modified …

HI x processing section of Iodine-Sulphur (IS) thermochemical cycle dictates the overall
efficiency of the cycle, which poses extremely corrosive HI–H 2 O–I 2 environment, coupled …