Journal
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE
Volume 31, Issue 6, Pages 4902-4908Publisher
SPRINGER
DOI: 10.1007/s11665-021-06538-x
Keywords
316-stainless steel; concentrated solar power; corrosion; electrochemical impedance spectroscopy; solar salt
Categories
Funding
- Solar Energy Research Initiative (SERI) -Department of Science and Technology (DST)
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The high-temperature electrochemical behavior of passive film on 316SS in solar salt was evaluated, showing an increase in corrosion rate with temperature and severe oxidation at 550 degrees C. However, the corrosion potential did not change significantly. The impedance bode phase diagram analysis revealed the role of the passive layer at 400 degrees C and processes controlled by mass transfer limitations at 500 degrees C.
The corrosion resistance of structural materials, particularly in molten salt environments, is of central importance to design concentrated solar power (CSP) plants. In this perspective, the high-temperature electrochemical behavior of passive film on 316SS in solar salt composition (60 pct. NaNO3: 40 pct. KNO3 by wt. pct.) was evaluated using linear resistance polarization, Tafel polarization, and electrochemical impedance spectroscopy techniques in the application range of 400 to 550 degrees C. An increase in corrosion rate with temperature and severe oxidation at 550 degrees C was recorded. However, the corrosion potential (E-corr) does not vary significantly. The critical analysis of the impedance bode phase diagram reveals two well-separated maxima at 400 degrees C, indicating the role of the passive layer during the corrosion process. At 500 degrees C, the observed phase angle is close to 45 degrees, attributed to processes controlled by mass transfer limitations. While analyzing the influence of mass transfer, an equivalent circuit model has been proposed to analyze the corrosion of the 316SS, a material used for piping and containment of CSP plants in molten solar salt.
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