Abstract
An electochemical flow-through cell and a current-interruption technique were used to investigate the potential of anodes made from mild steel, nickel, and four Ni-Cr-Fe alloys at high current densities (from 1 up to 100 A cm−2) in NaCl solutions for a Reynolds number of 7370. A plot of the anode potential against logarithm of current density yielded a Tafel line over a broad range of current densities. The plateau on the anode potential against current density curve was attributed to salt film formation. This explanation was confirmed by visual observation of the anode surface.
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