Electrochemical impedance analysis for corrosion rate monitoring of sol-gel protective coatings in contact with nitrate molten salts for CSP applications

Abstract

The protective behaviour of ZrO2-3%molY(2)O(3) sol-gel coatings, deposited with an immersion coating technique on 9Cr-1Mo P91 steel, was evaluated with corrosion monitoring sensors using the electrochemical impedance spectroscopy technique. The tests were carried out in contact with solar salt at 500 degrees C for a maximum of 2000 h. The results showed the highly protective behaviour of the coating, with the corrosion process in the coated system being controlled by the diffusion of charged particles through the protective layer. The coating acts by limiting the transport of ions and slowing down the corrosive process. The system allowed a reduction in the corrosion rate of uncoated P91 steel. The estimated corrosion rate of 22.62 mu m center dot year(-1) is lower than that accepted for in-service operations. The proposed ZrO2-3%molY(2)O(3) sol-gel coatings are an option to mitigate the corrosion processes caused by the molten salts in concentrated solar power plants.