High compressed hydrogen production via direct electrolysis of liquid ammonia

In this study, the direct electrolysis of liquid ammonia (NH3) by using ammonium chloride (NH4Cl) as an electrolyte to supply ammonium cation (NH4+) is performed. As a result, it is confirmed that a certain electric current is observed while voltage below 2.0 V is applied to the electrodes, which indicates that NH4Cl can work as an electrolyte for the electrolysis of liquid ammonia. Furthermore, generation of high compressed hydrogen by NH3 electrolysis is successfully demonstrated, where the inner pressure reaches 20 MPa. However, it is confirmed that the electrode corrosion on the anode occur during the electrolysis. Then, the corrosion mechanism of the anode electrode composed of stainless or platinum are investigated by gas chromatography for the generated gas, and powder x-ray diffraction measurement for the electrolyte after the electrolysis. Finally, it is concluded that a metal (M) of an anode electrode is ionized in the ammonia solution to form metal chloride (MClx) instead of the primary oxidation reaction for the electrolysis of ammonia. (C) 2016 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.