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In this research, the corrosive effect of sweet crude oil was studied by Electrochemical Impedance Spectroscopy (EIS), Tafel polarization   and Electrochemical Noise (ECN), on Carbon steel samples immersed in the extracted water of desalter vessel. According to the EIS results, after 4 hours, the impedance modulus at 0.01 Hz frequency were 1376 at 25 °C and 625 Ohm.cm2 at 85 °C . The relatively low variations of impedance modules at 25 and 85 °C can be caused by  the formation of Iron carbonate film on carbon steel  at temperatures above 60 °C, in the  presence of CO2 of the sweet crude oil. Also, the results of Tafel polarization confirmed that the corrosion rate due to the significant increase of temperature, was equal to 5.9 MPYand 10.7 MPY, at 25 and 85 °C respectively. The ECN results at 65 and 85 °C demonstrated that the large contribution of lowfrequency events on these immersed carbon steel samples is an indicative of general corrosion due to the discontinuous formation of carbonate film on the carbon steel surface. The discontinuous formation of carbonate film was also confirmed by scanning electron microscopy(SEM) micrographs. Then, for inside corrosion control of the desalter vessel, the best protective commercial coating has been selected considering the corrosion rate of carbon steel samples immersed in the extracted water of desalter vessel. To do so, the EIS tests in the special immersion cell and pull off tests were done on the solvent free Epoxy coatings with different hardners. Although all three solvent free coating samples can exhibit a suitable corrosion resistance at 80 °C, but on the  comparison between them, the performance of epoxy coating with phenolic hardener is better than epoxy coating with poly amino- amide hardener.

Keywords: Corrosion, Desalter equipment, Solvent free epoxy coating, Electrochemical evaluations

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