Best-estimate simulation of a VVER MSLB core transient using the NURESIM platform codes

Best-estimate simulation of a VVER MSLB core transient using the NURESIM platform codes

This paper summarizes the nodal level results from the VVER MSLB core simulation in the NURESAFE EU project. The main objective is to implement and verify new developments in the models and couplings of 3D core simulators for cores with hexagonal fuel assemblies. Recent versions of the COBAYA and DY...

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Veröffentlicht in:Nuclear engineering and design 2017-09, Vol.321, p.26-37
Hauptverfasser: Spasov, I., Mitkov, S., Kolev, N.P., Sanchez-Cervera, S., Garcia-Herranz, N., Sabater, A., Cuervo, D., Jimenez, J., Sanchez, V.H., Vyskocil, L.
Format: Artikel
Sprache:eng
Schlagworte:
Best-estimate simulation
Boundary conditions
Computer simulation
Core boundary condition problem
Cores
Couplings
Microprocessors
Nodal methods
Nuclear power plants
Nuclear reactors
Physics
Simulation
Simulators
Three dimensional models
VVER MSLB
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Beschreibung
Zusammenfassung:This paper summarizes the nodal level results from the VVER MSLB core simulation in the NURESAFE EU project. The main objective is to implement and verify new developments in the models and couplings of 3D core simulators for cores with hexagonal fuel assemblies. Recent versions of the COBAYA and DYN3D core physics codes, and the FLICA4 and CTF thermal-hydraulic codes were tested standalone and coupled through standardized coupling functions in the Salome platform. The MSLB core transient was analyzed in coupled code simulation of a core boundary condition problem derived from the OECD VVER MSLB benchmark. The impact of node sub-division and different core mixing models, as well as the effects of CFD computed core inlet thermal-hydraulic boundary conditions on the core dynamics were explored.
ISSN:0029-5493
1872-759X
DOI:10.1016/j.nucengdes.2017.03.032