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08606 Spent Nuclear Fuel Storage Basin Water Chemistry: Electrochemical Evaluation of Aluminum Corrosion

Picture for 08606 Spent Nuclear Fuel Storage Basin Water Chemistry: Electrochemical Evaluation of Aluminum Corro
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Product Number: 51300-08606-SG
ISBN: 08606 2008 CP
Author: Dave J. Hathcock, Philip R. Vormelker, and Robert L. Sindelar
Publication Date: 2008
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$20.00
$20.00
The factors affecting the optimal water chemistry of the Savannah River Site (SRS) spent fuel storage basin must be determine in order to optimize facility efficiency, minimize fuel corrosion, and reduce overall environmental impact from long term spent nuclear fuel storage at the Savannah River Site. The Savannah River National Laboratory is using statistically designed experiments to study the effects of NO3 -, SO4 2-, and Cl- concentrations on alloys commonly used not only as fuel cladding, but also as rack construction materials The results of cyclic polarization pitting and corrosion experiments on samples of Al 6061 and 1100 alloys will be used to construct a predictive model of the basin corrosion and its dependence on the species in the basin. The basin chemistry model and corrosion will be discussed in terms of optimized water chemistry envelope and minimization of cladding corrosion.
The factors affecting the optimal water chemistry of the Savannah River Site (SRS) spent fuel storage basin must be determine in order to optimize facility efficiency, minimize fuel corrosion, and reduce overall environmental impact from long term spent nuclear fuel storage at the Savannah River Site. The Savannah River National Laboratory is using statistically designed experiments to study the effects of NO3 -, SO4 2-, and Cl- concentrations on alloys commonly used not only as fuel cladding, but also as rack construction materials The results of cyclic polarization pitting and corrosion experiments on samples of Al 6061 and 1100 alloys will be used to construct a predictive model of the basin corrosion and its dependence on the species in the basin. The basin chemistry model and corrosion will be discussed in terms of optimized water chemistry envelope and minimization of cladding corrosion.
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