Application of Ionizing Radiation for the Enhancement of Hydrogen Yield in Electrolytic Water Decomposition

TL;DR

This study explores using gamma radiation from nuclear waste sources to enhance hydrogen production in water electrolysis, showing significant yield improvements with radiation exposure.

Contribution

It introduces a novel method of applying ionizing radiation from waste sources to improve hydrogen yield in electrolysis.

Findings

Radiation exposure increased hydrogen yield significantly.

Experimental setup used water boxes with gamma radiation and capacitors as electrodes.

Results demonstrate potential for radiation-assisted hydrogen production.

Abstract

During the past decay many experimental configurations to improve the yield of hydrogen by electrolysis. These attempts include tests of different materials for the electrodes. This study proposes the use of {\gamma}-radiation of waste sources of nuclear reactors. The related experimental configuration can be reduced to boxes filled with water exposed to ionizing radiation and capacitors as electrodes as well-known in other technical disciplies. Test measurements based on radiation of a linear accelerator (6 MV beam) provided significant differences of the yield of hydrogen between with and without radiation.