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Additional info for Mitigation of Hydrogen Hazards in Water-Cooled Power Reactors (IAEA TECDOC-1196)
1, ISBN 0-89448624-1, American Nuclear Society, La Grange Park, IL (1997) 589–601. , “An Application of CONTAIN Code to Hydrogen Distribution Analysis Following a LOCA in the CANDU 6 Containment” (Proc. OECD/NEA/CSNI Workshop on the Implementation of Mitigation Techniques, Winnipeg, 1996), AECL-11762, NEA/CSNI/R(96)8, Whiteshell Laboratories, Pinawa, Manitoba (1996). , "The Use of Catalytic Recombiners: An Effective Mitigation Measure", EUROSAFE, Paris, 1999. , "The Influence of Catalyst Poisons and the Measures to Maintain the Functionability of Catalysts for the Removal of Hydrogen during a coreMeltdown Accident", GRS-A-2235, December 1994.
46]. 41]. 2. Catalytic recombination and post-CO2 injection Carbon dioxide is injected in such an amount that deflagration-detonation transition and detonation onset are prevented while catalytic recombiners remove the hydrogen over time. Hence, the containment structures and equipment have only to withstand the static loading caused by (accidental) deflagration. However, the injection of incondensable gases provides a higher initial pressure for deflagration. Thus, this strategy is limited in application only to relatively strong containments that can withstand deflagration pressures by a good margin.
362, ISBN 0-7918-1858-6, American Society of Mechanical Engineers, New York (1998) 3–10. , “Amplification of the Maximum Overpressure of Hydrogen Deflagration in Multi-compartment Containments” (Proc. 11th Int. , Kyongju, 1997), Vol. 7, ISBN 156032-797-9, Korean Society of Mechanical Engineers, Seoul (1998) 275–282. , “A Mechanistic Approach to Safe Igniter Implementation for Hydrogen Mitigation” (Proc. OECD/NEA/CSNI Workshop on the Implementation of Mitigation Techniques, Winnipeg, 1996), AECL-11762, NEA/CSNI/R(96)8, Whiteshell Laboratories, Pinawa, Manitoba (1996).