Electrochemical Corrosion Potential Models for Boiling-Water Reactor Applications

Corrosion

Volumn 52, Issue 8, 1996, Pages 618-625

  Lin, C C ^a   Kim, Y J ^b   Niedrach, L W ^b   Ramp, K S ^c  

^a GE ENERGY   (United States)

^b GE GLOBAL RESEARCH   (United States)

^c ELECTRIC POWER RESEARCH INSTITUTE   (United States)

Author keywords

Boiling water reactor; Electrochemical corrosion potential; Flow; High purity water; Hydrogen peroxide; Modeling; Nuclear reactors; Radiolysis; Rotating cylinder electrodes; Velocity

Indexed keywords

BOILING WATER REACTORS; COOLANTS; ELECTRODES; HYDROGEN; HYDROGEN PEROXIDE; MATHEMATICAL MODELS; OXYGEN; STAINLESS STEEL; STEEL CORROSION;

ELECTROCHEMICAL CORROSION POTENTIAL; RADIOLYSIS; ROTATING CYLINDER ELECTRODES; WATER FLOW VELOCITY;

ELECTROCHEMICAL CORROSION;

EID: 0001414027     PISSN: 00109312     EISSN: None     Source Type: Journal    
DOI: 10.5006/1.3292152     Document Type: Article

References (23)

1. M. Gordon, R.L. Cowan, C.W. Jewett, A.E. Picket, "Mitigation of Stress Corrosion Cracking Through Suppression of Radiolytic Oxygen," Proc. 1st Int. Symp. Environmental Degradation of Materials In Nuclear Power Systems - Water Reactors, Myrtle Beach, South Carolina, August 1983 (Houston, TX: NACE, 1984), p. 893.
2. C. Wagner, W. Traud, Z. Electrochem. 44, 391 (1938).
3. L.W. Niedrach, Corrosion 47, 3 (1991): p. 162.
4. L.W. Niedrach, W.H. Stoddard, Corrosion 42 (1986): p. 696.
5. M. Itow, A. Sudo, M. Yajima, Corrosion 46 (1990): p. 934.
6. C.C. Lin, F.R. Smith, N. Ichikawa, M. Itow, Corrosion 48 (1992): p. 16-28.
7. D.D. Macdonald, Corrosion 48 (1992): p. 194.
8. C.S. Lin, E.B. Denton, M.S. Gaskill, G.L Putnam, Ind. Eng. Chem. 43 (1951): p. 2,136.
9. M. Ullberg, "On Corrosion Potential Measurement in BWRs," 4th Int. Symp. Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors" (Houston, TX: NACE, 1989), p. 4-143.
10. R.A. Holser, G. Prentice, R.B. Pond Jr., R. Guanti, Corrosion 46 (1990): p. 764.
11. C.P. Ruiz, C.C. Lin, R.N. Robinson, W.G. Burns, J. Henshaw, R. Pathania, "Model Calculations of Water Radiolysis and Electrochemical Potential in BWR Primary Coolant II," in Water Chemistry of Nuclear Systems 6, vol. 2 (London, U K.: BNES, 1992). p. 141.
12. Y.J. Kim, C.C. Lin, R. Pathania, "Effect of Water Flow Velocity of Electrochemical Corrosion Potential of Stainless Steel in 288°C Water," CORROSION/93, paper no. 621 (Houston, TX: NACE, 1993).
13. M. Eisenberg, C.W. Tobias, C.R. Wike, J. Electrochem. Soc. 101 (1954): p. 306.
14. D.A. Show, T.J. Hanratty, AIChE J. 23 (1977): p. 28.
15. H. Schlichting, Boundary Layer Theory (New York, NY: McGraw-Hill Book Co., 1979).
16. C.C. Lin, Y.J. Kim, L.W. Niedrach, "Development of Stainless Steel ECP Models," NEDE-32443, EPRI RDC101-20 (Palo Alto, CA: EPRI, 1995).
17. L.W. Niedrach, W.H. Stoddard, Corrosion 41 (1985): p. 45.
18. L.W. Niedrach, J. Electrochem. Soc. 129 (1982): p. 1,445.
19. C.P. Ruiz, C.C Lin, R.N. Robinson, W.G. Burns, A.R. Curtis, "Model Calculations of Water Radiolysis In BWR Primary Coolant," in Water Chemistry 5, vol. 1 (London, U.K.: BNES, 1989), p. 131-140.
20. C.C. Lin, "Prediction of Electrochemical Potentials in BWR Primary Systems." EPRI TR-102766 (Palo Alto, CA: EPRI. 1993).
21. W.D. Miller, R.A. Head, M.E. Indig, "Measurement of In-Core and Recirculation System Response to Hydrogen Water Chemistry at the Duane Arnold Energy Center," EPRI TR-102310 (Palo Alto, CA: EPRI, 1993).
22. R.A. Head, M. Siegler, "In-Core Response to Hydrogen Water Chemistry at J.A. Fitzpatrick Plant," EP89-32 (Palo Alto, CA: EPRI, 1992).
23. D.D. Macdonald, T.K. Yen, A.T. Motta, "Simultaneous Radiolysis, ECP, and Crack Growth Modeling of Components in BWR Coolant Systems," CORROSION/95, paper no. 403 (Houston, TX: NACE, 1995).