Electrochemical measurement of the corrosion rates of structural materials in molten NaCl -MgCl 2 at 580 °C

Abstract

Molten chlorides find varied applications in engineering disciplines, notably in the nuclear energy sector. However, the utilization of molten chlorides in molten salt reactors (MSRs) requires investigation of the corrosion behavior of the reactor ' s structural materials in such environments. In this study, we proposed a facile method for determining the corrosion rates of structural materials immersed in a high temperature NaCl - MgCl 2 molten salt, based on electrochemical measurements by cyclic voltammetry. The method involves measuring the electrochemical signals of the soluble corrosion products as a function of time. EuCl 3 -induced corrosion of Inconel 625 and stainless steel 316 (SS 316) in molten NaCl - MgCl 2 was monitored by electrochemical detection of Ni 2+ and Fe 2+ . The corrosion rates were linearly dependent on the EuCl 3 concentration, and first -order rate constants of 1.03 x 10 -4 and 3.20 x 10 -5 s - 1 at 580 degrees C were obtained for Inconel 625 and for SS 316, respectively. Arrhenius plot analysis of the temperature dependence of the rate constant provided an activation energy of 43.3 kJ mol - 1 for Inconel 625 corrosion in molten NaCl - MgCl 2 - EuCl 3 . The rate constant became temperatureinvariant above 620 degrees C indicating the mass -transfer limitation of corrosion at higher melt temperatures. The proposed approach enables accurate and real-time evaluation of the corrosion rate in the molten salt, and accordingly, offers a straightforward solution for in -situ corrosion monitoring in MSR systems.