The Physical Basis for the Void Reactivity Effect and Its Dependence on Absorber Rod Configuration in the RBMK-1000
Author:
Affiliation:
1. Atomic Energy of Canada Limited, CANDU Operations, Sheridan Park Research Community, Mississauga, Ontario, Canada L5K 1B2
Publisher
Informa UK Limited
Subject
Nuclear Energy and Engineering
Link
https://www.tandfonline.com/doi/pdf/10.13182/NSE89-A23679
Reference5 articles.
1. J. CHAO et al. “An Analysis of the Chernobyl Accident Using RETRAN-02/MOD3,” NSAC-117, Nuclear Safety Analysis Center (Apr. 1988).
2. “Report of the U.S. Department of Energy’s Team Analyses of the Chernobyl-4 Atomic Energy Station Accident Sequence,” DOE/NE-0076, U.S. Department of Energy (Nov. 1986).
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1. Analysis of Coolant Void Reactivity of Advanced Heavy Water Reactor Through Isotopic Reaction Rates;Nuclear Science and Engineering;2011-02
2. Reactivity effects of dryout in several RBMK multicells;Atomic Energy;1993-03
3. Physics of nuclear reactor safety;Reports on Progress in Physics;1992-11-01
4. Neutron Absorber Effect on Coolant Void Reactivity in a Pressure-Tube-Type Heavy Water Reactor;Nuclear Science and Engineering;1991-07
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