Study of flow-assisted corrosion (FAC) in a API 5L X-70 steel in a brine-H₂S-CO₂ system using the rotating cylindrical electrode

Corrosion caused by the mixture CO₂/H₂S in the transport of hydrocarbons is one of the most important research areas in the energy industry due to the severe problems it produces during the wear and tear of the pipes. Based in previous studies, in the present investigation the corrosion of API 5L X-70 steel in media with CO₂ and H₂S is studied as well as mixtures of both media, by means of a rotating cylindrical electrode due to the need to know the behavior of corrosion products in metals. The corrosion rate is evaluated at different pressures of H₂S and CO₂ and at 30 and 60 °C using the potentiodynamic polarization resistance measurements. From the results, it is observed that steel at the conditions of 0.8 bar H₂S + 0.2 bar CO₂ at 30 °C, yielded the lowest corrosion rate. This behavior is attributed to the fact that when H₂S predominates it allows the formation of a greater number of protective layers comprised by a mixture of oxides, sulfides, sulfates and carbonates as corrosion products.