DOI: 10.20868/upm.thesis.4295
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Desarrollo e implementación de la descomposición en subdominios del acoplamiento neutrónico-termohidráulico mediante disecciones alternadas con un sistema de cálculo multiescala

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Cited by 3 publications
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“…Two coupling strategies can be employed: internal coupling where each node power is transferred to a TH code and external coupling where core TH and neutronics are solved in first place and only boundary conditions are exchanged with the plant code. For instance COBAYA3, being developed by the Technical University of Madrid within the framework of the NURISM project, couples the nodal code ANDES [28] and diffusion code COBAYA3k [29] with the subchannel code COBRA-TF [30] to perform 3D coupled transient analysis in LWR cores. The results are integrated in the SALOME platform.…”
Section: Fuel Evolution Codesmentioning
confidence: 99%
“…Two coupling strategies can be employed: internal coupling where each node power is transferred to a TH code and external coupling where core TH and neutronics are solved in first place and only boundary conditions are exchanged with the plant code. For instance COBAYA3, being developed by the Technical University of Madrid within the framework of the NURISM project, couples the nodal code ANDES [28] and diffusion code COBAYA3k [29] with the subchannel code COBRA-TF [30] to perform 3D coupled transient analysis in LWR cores. The results are integrated in the SALOME platform.…”
Section: Fuel Evolution Codesmentioning
confidence: 99%