ISSN 2305-6894

The influence of dissolved molecular oxygen on the corrosion of metals in aqueous acid solutions. Review

A.N. Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences, Leninsky pr. 31, 119071 Moscow, Russian Federation

Abstract: This review discusses the current state of research in the field of corrosion of metals in aqueous solutions of acids containing molecular oxygen, as well as various issues of inhibitory protection of metals in such acidic environments. Thermodynamic aspects of metal corrosion in aqueous media containing dissolved O2 are discussed. Reference data on the physicochemical properties of O2 present in acidic aqueous media is presented. Modern views on the mechanism of O2 reduction on metals are discussed. Corrosion of a metal in such an acid solution containing O2 generally occurs as a result of its parallel reactions of interaction with the acid itself and O2 molecules. In the case of metals with E0(Mez+/Me)>0 V, the only possible reaction is interaction with O2. A specific feature of corrosion occurring with oxygen depolarization is its diffusion control, which makes this process very sensitive to the nature of convection of the aggressive environment. An increase in the rate of corrosion of metals is caused by an increase in the O2 content in the solution and the transition from a static environment to a dynamic one. The presence of molecular O2 in acid solutions reduces the effectiveness of metal protection with corrosion inhibitors, in comparison with similar oxygen-free environments. In inhibited environments containing O2, the sensitivity of metal corrosion to the parameters of solution convection remains. The bibliography includes 109 references.

Keywords: corrosion, metal, mechanism of metal corrosion, acid corrosion, dissolved oxygen, oxygen reduction reaction, corrosion inhibitors

Int. J. Corros. Scale Inhib., , 13, no. 2, 1103-1134
doi: 10.17675/2305-6894-2024-13-2-25

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