Since 2002 a generation IV nuclear energy system development project has been initiated to enhance the future role of nuclear energy systems. Challenging technology goals for generation IV nuclear reactor systems were defined in 4 areas: sustainability, economics, safety and reliability and proliferation resistance. Light water reactors at supercritical pressure, being currently under design, are the new generation of nuclear reactors. The high-performance light water reactor (HPLWR) is the European version of the supercritical-pressure water cooled reactor (SCWR). The aim of this study is to reliability analysis of heavy water emergency core cooling system (ECCS) (instead of light water ECCS) in HPLWRs during LOCA (loss of coolant accident) through neutronics calculations and applied feedback.. Reliability analysis (neutronic calculations) are performed using WIMS and CITATION codes. Changes in neutronic parameters, such as neutron cross-sections, effective multiplication factor and power peaking factor during LOCA, are discussed by injecting different concentrations of the heavy water coolant by ECCS.
TASHAKOR, S. (2018). Neutronic Analysis of Heavy Water Application in HPLWR Emergency Core Cooling System. Arab Journal of Nuclear Sciences and Applications, 51(2), 116-123. doi: 10.21608/ajnsa.2017.1940.1006
MLA
SAMAN TASHAKOR. "Neutronic Analysis of Heavy Water Application in HPLWR Emergency Core Cooling System". Arab Journal of Nuclear Sciences and Applications, 51, 2, 2018, 116-123. doi: 10.21608/ajnsa.2017.1940.1006
HARVARD
TASHAKOR, S. (2018). 'Neutronic Analysis of Heavy Water Application in HPLWR Emergency Core Cooling System', Arab Journal of Nuclear Sciences and Applications, 51(2), pp. 116-123. doi: 10.21608/ajnsa.2017.1940.1006
VANCOUVER
TASHAKOR, S. Neutronic Analysis of Heavy Water Application in HPLWR Emergency Core Cooling System. Arab Journal of Nuclear Sciences and Applications, 2018; 51(2): 116-123. doi: 10.21608/ajnsa.2017.1940.1006
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