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Nuclear Technology Volume 116, 1996 - Issue 2
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Technical Paper

Investigation of System Responses of the Maanshan Nuclear Power Plant to the Loss of Residual Heat Removal During Midloop Operation Using a RELAP5/MOD3 Simulation

Yuh-Ming FerngInstitute of Nuclear Energy Research, P.O. Box 3-3 Lung-Tan, Taiwan 325, Taiwan
&
Shau-Shei MaInstitute of Nuclear Energy Research, P.O. Box 3-3 Lung-Tan, Taiwan 325, Taiwan
Pages 160-172 | Published online: 13 May 2017

References

  • J. L. CREWS et al., “Loss of Residual Heat Removal System Diablo Canyon, Unit 2, April 10, 1983,” NUREG-1269, U.S. Nuclear Regulatory Commission (June 1991).
  • “Loss of Vital AC Power and Residual Heat Removal System During Mid-Loop Operations at Vogtle Unit 1 on March 20, 1990,” NUREG-1410, U.S. Nuclear Regulatory Commission (June 1990).
  • “Evaluation of Potential Severe Accidents During Low Power and Shutdown Operation at Surry, Unit 1,” NU-REG/CR-6144, U.S. Nuclear Regulatory Commission (1994).
  • “Thermal-Hydraulic Processed During Reduced Inventory Operation with Loss of Residual Heat Removal,” NU-REG/CR-5855, EGG-2671, Rev. 2, U.S. Nuclear Regulatory Commission (Apr. 1992).
  • R. L. KIANG et al., “Decay Heat Removal Experiments in a UTSG Two-Loop Test Facility,” EPRI No-2621, Electric Power Research Institute (Sep. 1992).
  • L. E. HOCHREITER et al., “PWR FLECHT-SEA SET Systems Effects Natural Circulation and Reflux Condensation,” NUREG/CR-3654; EPRI NP-3497, Electric Power Research Institute; WCAP-10415, Westinghouse Electric Corporation (Aug. 1984).
  • G. LOOMIS, “Summary of the Semiscale Program (1965-1986),” NUREG/CR-4945, EGG-2509, EG&G Idaho, Inc. (July 1987).
  • D. E. PALMROSE and R. MANDLE, “A Model for Calculation of RCS Pressure During Reflux Boiling Under Reduced Inventory Conditions and Its Assessment Against PKL Data,” presented at 19th Water Reactor Safety Information Mtg., Bethesda, Maryland, October 1991.
  • C. D. FLETCHER and R. R. SCHULTZ, “RELAP5/MOD3 Code Manual,” NUREG/CR-5535, U.S. Nuclear Regulatory Commission (1992).
  • Y. A. HASSAN and L. L. RAJA, “Simulation of Loss of RHR During Midloop Operations and the Role of Steam Generators in Decay Heat Removal Using the RELAP5/MOD3 Code,” Nucl. Technol., 103, 310 (1993).
  • “Consequence of the Loss of RHR in PWRs,” NUREG/CR-5280, U.S. Nuclear Regulatory Commission (1992).
  • H. NAKAMURA, J. KATAYAMA, and Y. KUKITA, “RELAP5 Code Analysis of a ROSA-IV/LSTF Experiment Simulating a Loss of Residual Heat Removal Event During PWR Mid-Loop Operation,” Proc. 5th Int. Topl. Mtg. Reactor Thermal Hydraulics, NURETH-5, Salt Lake City, Utah, September 21–24, 1992, Vol. V, p. 1333, American Nuclear Society (1992).
  • S. BANERJEE and Y. A. HASSAN, “RELAP5/MOD3 Simulation of the Loss of RHR System During Midloop Operation Experiment Conducted at the ROSA-IV Large Scale Test Facility,” presented at 4th Int. Topl. Mtg. Nuclear Thermal Hydraulics, Operations and Safety, Taipei, Taiwan, April 5–8, 1994.
  • Y.-M. FERNG and C.-H. LEE, “Assessment of the Simulation Capability of RELAP5/MOD3 Compared with IIST Tests for Loss of the Residual Heat Removal System During Midloop Operation,” Nucl. Technol., 116, 19 (1996).

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