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Nuclear Technology Volume 141, 2003 - Issue 2
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Technical Paper

Development of a RELAP5-3D Multidimensional Model of a VVER-1000 NPP for Analysis of a Large-Break Loss-of-Coolant Accident

Kevin T. ClarnoTexas A&M University, Department of Nuclear Engineering College Station, Texas 77843-3133
&
Yassin A. HassanTexas A&M University, Department of Nuclear Engineering College Station, Texas 77843-3133
Pages 142-156 | Published online: 10 Apr 2017

References

  • J. J. CARBAJO, G. YODER, D. POINTER, and V. IVANOV, “VVER-1000 Thermal-Hydraulic Transients Modeled with the RELAP50MOD3.2 Code,” Trans. Am. Nucl. Soc., 80, 185 (1999).
  • “Database for the Kozloduy NSSS for Accident Analysis of WWER-1000 Model 320 Nuclear Power Plants,” Rev. 1, Technical Co-Operation Project RER/9/020, lAEA-TC/RER/020, International Atomic Energy Agency (Nov. 1994).
  • Source Book: Soviet-Designed Nuclear Power Plants in Russia, Ukraine, Lithuania, the Czech Republic, the Slovak Republic, Hungary and Bulgaria, 4th ed., Nuclear Energy Institute (1996).
  • RELAP5–3D CODE DEVELOPMENTTEAM, “RELAP5–3D Code Manual,” INEEL-EXT-98–00834, Rev. 1.1b, Idaho National Engineering and Environmental Laboratory (July 1999).
  • F. D’AURIA, G. GALASSI, and L. MASTRANTONIO, “Accident Management Studies in the WWER-1000 Nuclear Power Plant,” Proc. Int. Topl. Mtg. Nuclear Thermal-Hydraulics (NURETH-8), Kyoto, Japan, September 30–October 4, 1997 (1997).
  • J. CARBAJO, J. GEHIN, G. YODER, and V. IVANOV, “Simulation of a Control Rod Ejection in a VVER-1000 Reactor with the Program RELAP5–3D,” presented at the 2001 RE-LAP5 Users Seminar, Jackson Hole, Wyoming (Sep. 2000).
  • C. FU, “RELAP5/MOD3.2 Analysis of a VVER-1000 Reactor with UO2 Fuel and MOX Fuel,” MS Thesis, Texas A&M University (May 2000).
  • “Guidelines for Accident Analysis of WWER Nuclear Power Plants,” in “ Publication of the Extrabugetary Program on the Safety of WWER and RBMK Nuclear Power Plants,” IAEA-EBP-VVER-01, International Atomic Energy Agency (1995).
  • D. MOSCALU, “Simulation of Operational Transients in a VVER-1000 Nuclear Power Plant Using RELAP5/MOD3.2 Computer Program,” MS Thesis, Texas A&M University (Dec. 1998).
  • G. WILSON and C. DAVIS, “Best Estimate Versus Evaluation Model Calculations of Peak Clad Temperature: An Example Based on the LOFT Facility,” Proc. Int. Topl. Mtg. Nuclear Thermal-Hydraulics (NURETH-9), San Francisco, California, October 3–8, 1999 (1999).
  • V. IVANOV et al., “Calculational Analysis of the Transients and Accident Regimes: Balacovo NPP (Unit 4) with 3 LTA,” Russian Research Center, Kurchatov Institute, Moscow (1999).
  • C. FREIRE, E. KURAMOTO, G. SEEBERGER, and S. BLANK, “Uncertainty Methodology Applied to Large Break LOCA Analysis,” IAEATECDOC 1011–4289, IAEA Conference, Villigen, Switzerland, p. 421, International Atomic EnergyAgency (1998).
  • “Quantifying Reactor Safety Margins: Application of Code Scaling, Applicability, and Uncertainty Evaluation Methodology to Large Break LOCA,” NUREG/CR 5249 EGG-2552, U.S. Nuclear Regulatory Commission (Dec. 1989).

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