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Nuclear Technology Volume 181, 2013 - Issue 1
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Technical Paper

Quenching Experiments: Coolability of Debris Bed

M. RashidUniversity of Stuttgart, Institut für Kernenergetik und Energiesysteme Stuttgart, Germany
,
S. RahmanUniversity of Stuttgart, Institut für Kernenergetik und Energiesysteme Stuttgart, Germany
,
R. KulenovicUniversity of Stuttgart, Institut für Kernenergetik und Energiesysteme Stuttgart, Germany
,
M. BürgerUniversity of Stuttgart, Institut für Kernenergetik und Energiesysteme Stuttgart, Germany
&
E. LaurienUniversity of Stuttgart, Institut für Kernenergetik und Energiesysteme Stuttgart, Germany
Pages 208-215 | Published online: 10 Aug 2017

References

  • D. Magallon, “Characteristics of Corium Debris Bed Generated in Large-Scale Fuel-Coolant Interaction Experiments,” Nucl. Eng. Des., 236, 1998 (2006).
  • A. Karbojian et al., “A Scoping Study of Debris Bed Formation in the DEFOR Test Facility,” Nucl. Eng. Des., 239, 1653 (2009).
  • X. Gaus-Liu et al., “In-Vessel Melt Pool Coolibility Test—Description and Results of LIVE Experiments,” Nucl. Eng. Des, 240, 3898 (2010).
  • M. Rashid, R. Kulenovic, and E. Laurien, “Experimental Results on the Coolability of a Debris Bed with Down Comer Configurations,” Nucl. Eng. Des., 249, 104 (2012).
  • P. Schafer, M. Groll, and R. Kulenovic, “Basic Investigations on Debris Cooling,” Nucl. Eng. Des., 236, 2104 (2006).
  • A. K. Nayak, A. V. Stepanyan, and B. R. Sehgal, “Experimental Investigations on the Dryout Behaviour of a Radially Stratified Porous Bed,” presented at 11th Int. Topl. Mtg. Nuclear Reactor Thermal-Hydraulics (NURETH-11), Avignon, France, October 2-6, 2005.
  • V. X. Tung and V. K. Dhir, “Quenching of a Hot Particulate Bed by Bottom Flooding,” Proc. ASME-JSME Thermal Engineering Joint Conf., Honolulu, Hawaii, March 20-24, 1983, American Society of Mechanical Engineers/Japan Society of Mechanical Engineers (1983).
  • V. X. Tung and V. K. Dhir, “Quenching of Debris Beds Having Variable Permeability in the Axial and Radial Directions,” Nucl. Eng. Des., 99, 275 (1987).
  • N. K. Tutu et al., “Debris Bed Quenching Under Bottom Flood Conditions,” NUREG/CR-3850, BNL-NUREG-51788, Brookhaven National Laboratory (1984).
  • M. Buck, “Validation of the MEWA Model for Quenching of a Severely Damaged Reactor Core,” presented at Joint Organisation for Economic Co-operation and Development/Nuclear Energy Agency EC/SARNET2 Workshop on InVessel Coolability, Paris, France, October 12-14, 2009.
  • S. Rahman et al., “Analysis of Dryout Behaviour in Laterally Non-Homogeneous Debris Beds Using the MEWA-2D Code,” presented at 13th Int. Topl. Mtg. Nuclear Reactor Thermal Hydraulics (NURETH-13), Kanazawa City, Ishikawa Prefecture, Japan, September 27-October 2, 2009.

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