Neutron Absorber Effect on Coolant Void Reactivity in a Pressure-Tube-Type Heavy Water Reactor
Author:
Affiliation:
1. Power Reactor and Nuclear Fuel Development Corporation, Oarai Engineering Center, Oarai-machi, Ibaraki-ken, Japan
Publisher
Informa UK Limited
Subject
Nuclear Energy and Engineering
Link
https://www.tandfonline.com/doi/pdf/10.13182/NSE91-A23828
Reference10 articles.
1. The Physical Basis for the Void Reactivity Effect and Its Dependence on Absorber Rod Configuration in the RBMK-1000
2. Analysis of the chernobyl reactor accident (II) An examination of the improvement measures concerning the accident of the chernobyl power plant
3. Study on Coolant Void Reactivity of Pressure-Tube-Type Heavy Water Lattice by the Substitution Method
4. The Effect of Boron and Gadolinium Burnable Poisons on the Hot-to-Cold Reactivity Swing of a Pressurized Water Reactor Assembly
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1. Vapor–liquid equilibria and thermophysical behavior of the SPC-HW model for heavy water;Molecular Simulation;2005-12
2. Benchmarking MCNP and WIMS/RFSP against Measurement Data—I: Deuterium Critical Assembly;Nuclear Science and Engineering;2004-02
3. Effect of a 0.3-eV Resonance Cross Section for Plutonium on the Coolant Void Reactivity in a Heavy Water Lattice;Nuclear Science and Engineering;1997-09
4. Influence of Burnable Gadolinia Poison on Coolant Void Reactivity in a Pressure-Tube-Type Heavy Water Reactor;Nuclear Science and Engineering;1993-11
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