Energies, Vol. 18, Pages 4878: Research on Hydrogen Production by Electrochemical Decomposition of HIx Solution
Energies doi: 10.3390/en18184878
Authors:
Yuhang An
Xiaofei Li
Jingxin Zeng
Xue Sun
Yuanyuan Duan
Qiang Song
The electrochemical decomposition of HIx solution presents a promising alternative to overcome the challenges associated with HI thermal decomposition in the sulfur–iodine (S-I) cycle. In this study, constant current electrolysis and LSV tests were carried out for HIx solution using an H-type electrolyzer at different current densities and anode solution compositions. The results showed that during the process of HI electrolysis, the dominant factor of voltage variation gradually changed from electrochemical polarization to ohmic polarization as the current density increased. When the I2 concentration in the HI solution approached saturation, a voltage step occurred in the constant current electrolysis, reaching a maximum amplitude of 127.69%. The analysis indicated that the voltage step was related to the I2 deposition on the electrode and PEM, which led to the simultaneous increase in activation polarization and ohmic polarization overpotential. The increase in I2 concentration decreased the limiting diffusion current density; I2 supersaturation led to the formation of an insoluble iodine film on the electrode surface, ultimately terminating the electrochemical reaction. This study provides guidance for the development of HIx solution electrolysis technology for hydrogen production.