AISI 304 L stainless steel decontamination by a corrosion process using cerium IV regenerated by ozone. Part I: Study of the accelerated corrosion process

AISI 304 L stainless steel decontamination by a corrosion process using cerium IV regenerated by ozone. Part I: Study of the accelerated corrosion process

This paper describes the study of a new decontamination process of AISI 304L stainless steel from dismantled nuclear power plants. A very thin active contaminated surface layer was stripped from the underlying metal by corrosion in a solution of nitric acid with the addition of cerium nitrate. The C...

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Bibliographic Details
Published in:Journal of applied electrochemistry Vol. 33; no. 8; pp. 703 - 708
Main Authors: CAIRE, J. P, LAURENT, F, CULLIE, S, DALARD, F, FULCONIS, J. M, DELAGRANGE, H
Format: Journal Article
Language:English
Published: Heidelberg Springer 01-08-2003
Springer Verlag
Subjects:
Applied sciences
Chemical Sciences
Cleaning. Degreasing. Pickling
Exact sciences and technology
Material chemistry
Metals. Metallurgy
Production techniques
Surface treatment
Surface cleaning
Cerium Nitrates
cerium
stainless steel
Ozone
Nitric acid
Acidic solution
Surface treatment
Metal scrap
Corrosion
Decontamination
Medium effect
Stainless steel-304L
corrosion
decontamination
ozone
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Summary:This paper describes the study of a new decontamination process of AISI 304L stainless steel from dismantled nuclear power plants. A very thin active contaminated surface layer was stripped from the underlying metal by corrosion in a solution of nitric acid with the addition of cerium nitrate. The Ce4+/Ce3+ concentration ratio was initially equal to unity and ozone/oxygen bubbles were used to regenerate Ce3+ ions into Ce4+ ions. The study was performed in a laboratory cell prior to preliminary optimization in a three-litre reactor. The objective was to obtain a corrosion rate of about 10 micrometers per day. This target was reached in 10–2 mol l–1 of cerium nitrate with bubbling of a 1.56 g h–1 ozone flow in a 60 l h–1 total gas flow. The corrosion rate depended essentially on the Ce4+ concentration. The stainless steel exhibited intergranular corrosion. The corrosion rate was monitored by measuring the solution oxidizing potential using a precious metal electrode.
ISSN:0021-891X
1572-8838
DOI:10.1023/A:1025051306270