A chronopotentiometry based identification of time-varying different transport resistances of electro-electrodialysis cell used for concentration of HIx solution
By Sow, Pradeep Kumar & Shukla, Anupam
Published in International Journal of Hydrogen Energy
2013
Abstract
A simple technique based on the use of under-limiting current chronopotentiometry for determining different transport resistances (and associated energy consumption) of an Electro-electrodialysis (EED) cell has been demonstrated. The technique employed chronopotentiometry studies at different current densities varying from 10 to 60Â mA/cm2. All the applied current densities were in the underlimiting current region. In the studies, we have identified four different energy consumption modes in EED cell; the ohmic, the mass transfer, the electrodes reactions and open circuit voltage (OCV) which were calculated individually based on the potential drop contribution by each component. The potential drop and corresponding energy consumption, corresponding to the electrode reaction was found to be negligibly low as compared to the other potential drop components. Studies on the variation of different transport resistances with operation time of the EED cell showed that first three energy consumption mechanisms change little with change in HIx concentration while the OCV increases significantly and becomes the major energy consumption mode especially at low current densities for the desired EED exit HIx concentration.