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Nuclear Science and Engineering Volume 123, 1996 - Issue 2
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Technical Paper

Modeling Water Chemistry, Electrochemical Corrosion Potential, and Crack Growth Rate in the Boiling Water Reactor Heat Transport Circuits—II: Simulation of Operating Reactors

Tsung-Kuang YehThe Pennsylvania State University, Center for Advanced Materials 517 Deike Building, University Park, Pennsylvania 16802
&
Digby D. MacdonaldThe Pennsylvania State University, Center for Advanced Materials 517 Deike Building, University Park, Pennsylvania 16802
Pages 295-304 | Published online: 13 May 2017

References

  • C. P. RUIZ et al., “Modeling Hydrogen Water Chemistry for BWR Applications,” EPRINP-6386, Electric Power Research Institute (June 1989).
  • T.-K. YEH, D. D. MACDONALD, and A. T. MOTTA, “Modeling Water Chemistry, Electrochemical Corrosion Potential, and Crack Growth Rate in the Boiling Water Reactor Heat Transport Circuits —1: The DAMAGE-PREDICTOR Algorithm,” Nucl. Sci. Eng., 121, 468 (1995).
  • M. E. INDIG, “Recent Advances in Measuring ECPs in BWR Systems,” Proc. 4th Int. Symp. Environmental Degradation of Materials in Nuclear Power Systems— Water Reactors, Jekyll Island, Georgia, August 6–10, 1989, p. 4–411, National Association of Corrosion Engineers.
  • P. FORD et al., “Corrosion-Assisted Cracking of Stainless and Low-Alloy Steels in LWR Environments,” Final Report, EPRI NP-5064M, Electric Power Research Institute (Feb. 1987).
  • J. A. BLAKESLEE, “ZEBRA-A Computer Code for the Steady-State Thermal Analysis of Light Water Cooled Nuclear Power Reactor,” Master Paper, Department of Nuclear Engineering, The Pennsylvania State University (1974).
  • T.-K. YEH, “The Viability of Hydrogen Water Chemistry for Mitigating Stress Corrosion Cracking in Boiling Water Reactor Heat Transport Circuits,” PhD Thesis, Department of Nuclear Engineering, The Pennsylvania State University (1994).
  • C. C. LIN et al., Int. J. Chem. Kinet., 23, 971 (1991).
  • C. C. LIN, “Estimation of Hydrogen Peroxide Decomposition Rates in the Boiling Water Reactor Primary Coolant Circuit,” Nucl. Technol., 103, 257 (1993).
  • D. D. MACDONALD, “Literature Review of the Flow Rate Dependence of Localized Corrosion Processes in Light Water Reactor Heat Transport Circuits,” Internal Report to Electric Power Research Institute, Center for Advanced Materials, The Pennsylvania State University (1994).
  • D. S. WILKINSON and V. VITEK, Acta Metall., 30, 1723 (1982).
  • D. D. MACDONALD, P. C. LU, M. Urquidi MACDONALD, and T.-K. YEH, “Theoretical Estimation of Crack Growth Rates in Type 304 Stainless Steel in BWR Coolant Environments,” Corrosion (to be published).

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