Abstract

One of the biggest challenges of concentrating solar power (CSP) is achieving cost-reduction in the thermal energy storage (TES) system. Operating conditions of molten salt CSP plants includes intermittent exposure of the TES tanks materials (i.e., carbon steel, stainless-steel) in contact with molten salt (NaNO 3 –KNO 3 ). This manuscript evaluates the lessons learnt in the performance of such tank materials with molten salts under continuous and intermittent exposure in a demo plant for indirect thermal storage at 400 °C. This study shows that the hot tank upper section developed breakaway corrosion phenomena generating oxides layers, which easily delaminates from the base metal. This damage is produced by the tank preheating system, which introduced a non-controlled amount of CO 2 inside the tanks. Then, the carbon steel upper section is exposed in the hot tank to a mixture composed by CO 2 , water vapour, and chlorides at high temperature, producing this type of attack. The materials tested are carbon and low alloyed steels types A516Gr70, A387Gr11 and A387Gr5, Cr–Mo steel A387Gr9, stainless steels types A304L, A316L and A347. The lessons learnt have been implemented in the commissioning of new commercial plants successfully. • Lessons learnt of intermittent exposure of steel in molten salts. • Application in CSP plants with nitrates mixture molten salts at 400 °C. • Breakaway corrosion with easily delaminating oxide layers. • Phenomena produces during tank preheating due to CO 2 presence. • Lessons learnt implemented in the commissioning of commercial plants successfully.

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