PHISICS is a reactor analysis toolkit developed over the last 3 years at the Idaho National Laboratory. It has been coupled with the reactor safety analysis code RELAP5-3D. PHISICS is aimed at providing an optimal trade off between needed computational resources (in the range of 10~100 computer processors) and accuracy. In fact, this range has been identified as the next 5 to 10 years average computational capability available to nuclear reactor design and optimization nuclear reactor cores. Detailed information about the individual modules of PHISICS can be found in [1]. An overview of the modules used in this study is given in the next subsection. Lately, the Idaho National Laboratory gained access plant data for the first cycle of a PWR, including Hot Zero Power (HZP) and Hot Full Power (HFP). This data provides the opportunity to validate the transport solver, the interpolation capability for mixed macro and micro cross section and the criticality search option of the PHISICS packa

Hot Zero and Full Power Validation of PHISICS RELAP-5 Coupling / F., Lodi; Alfonsi, Andrea; C., Rabiti; A., Epiney; M., Sumini. - STAMPA. - 108:(2013), pp. 709-713. (Intervento presentato al convegno American Nuclear Society 2013 Annual Meeting "Next Generation Nuclear Energy: Prospects and Challenges", tenutosi a Atlanta, GA; United States).

Hot Zero and Full Power Validation of PHISICS RELAP-5 Coupling

ALFONSI, ANDREA;
2013

Abstract

PHISICS is a reactor analysis toolkit developed over the last 3 years at the Idaho National Laboratory. It has been coupled with the reactor safety analysis code RELAP5-3D. PHISICS is aimed at providing an optimal trade off between needed computational resources (in the range of 10~100 computer processors) and accuracy. In fact, this range has been identified as the next 5 to 10 years average computational capability available to nuclear reactor design and optimization nuclear reactor cores. Detailed information about the individual modules of PHISICS can be found in [1]. An overview of the modules used in this study is given in the next subsection. Lately, the Idaho National Laboratory gained access plant data for the first cycle of a PWR, including Hot Zero Power (HZP) and Hot Full Power (HFP). This data provides the opportunity to validate the transport solver, the interpolation capability for mixed macro and micro cross section and the criticality search option of the PHISICS packa
2013
American Nuclear Society 2013 Annual Meeting "Next Generation Nuclear Energy: Prospects and Challenges",
Reactor Physics; THERMAL-HYDRAULIC TRANSIENT; PHISICS code; Reactor Simulation
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Hot Zero and Full Power Validation of PHISICS RELAP-5 Coupling / F., Lodi; Alfonsi, Andrea; C., Rabiti; A., Epiney; M., Sumini. - STAMPA. - 108:(2013), pp. 709-713. (Intervento presentato al convegno American Nuclear Society 2013 Annual Meeting "Next Generation Nuclear Energy: Prospects and Challenges", tenutosi a Atlanta, GA; United States).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/541750
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