Environmental evaluation of hydrogen production via thermochemical water splitting using the Cu-Cl Cycle: A parametric study

Variations of environmental impacts with lifetime and production capacity are reported for nuclear based hydrogen production plants using the three-, four- and five-step (copper-chlorine) Cu-CI thermochemical water decomposition cycles. Life cycle assessment is utilized which is essential to evaluate and to decrease the overall environmental impact of any system and/or product. The life cycle assessments of the hydrogen production processes indicate that the four-step Cu-Cl cycle has lower environmental impacts than the three- and five-step cycles due to its lower thermal energy requirement. Parametric studies show for the four-step Cu-Cl cycle that acidification and global warming potentials can be reduced from 0.0031 to 0.0028 kg SO₂-eq and from 0.63 to 0.55 kg CO₂-eq, respectively, if the lifetime of the system increases from 10 to 100 years.