Add to ORKGFINIX is a recently developed fuel behaviour module that is designed to provide "simple but sufficient" descriptions of the most essential fuel behaviour phenomena in multiphysics simulations. In such simulations, it is possible to obtain significant improvement in the feedback to neutronics or thermal hydraulics modelling even with a relatively simple fuel performance model. In this work, FINIX is used as an internal fuel behaviour module both in reactor physics and in reactor dynamics codes to simulate coupled behaviour in fast transient scenarios. With the Monte Carlo reactor physics code Serpent we model a prompt transient in a VVER-1000 pin cell, and with the reactor dynamics code HEXTRAN, a control rod ejection accident in a VVER-440 ...
PANCHO has been the essential platform for the ongoing development of FINIX fuel behaviour module an...
New generation nuclear reactors are designed using advanced safety analysis methods. A thorough unde...
In the paper, the development of a multiphysics model for the transient analysis of non-moderated Mo...
FINIX is a recently developed fuel behaviour module that is designed to provide “simple but sufficie...
FINIX is a recently developed fuel behaviour module that is designed to provide "simple but sufficie...
In this paper, we present a novel, lightweight fuel behavior code, FINIX. FINIX provides an advanced...
The FINIX fuel behavior code has been updated to version 1.18.9. The new version has been validated,...
We have developed a new light-weight fuel behavior code FINIX, specifically designed for modeling of...
The FIN IX fuel behavior code has been updated to version 0.15.6. The focus of the update has in imp...
The FINIX fuel behavior module and interface for multiphysics applications has been developed at VTT...
VTT Technical Research Centre of Finland Ltd (VTT) is currently re-building its computational reacto...
The FINIX fuel behavior code has been updated to version 0.17.12. In the new version several steady-...
FINIX is a fuel performance module developed at VTT since 2012. Its intended purpose is to be couple...
This paper describes the recent developments in the multi-physics capabilities of the Serpent Monte ...
The FINIX fuel performance code has been developed at VTT to be coupled to existing thermal-hydrauli...
PANCHO has been the essential platform for the ongoing development of FINIX fuel behaviour module an...
New generation nuclear reactors are designed using advanced safety analysis methods. A thorough unde...
In the paper, the development of a multiphysics model for the transient analysis of non-moderated Mo...
FINIX is a recently developed fuel behaviour module that is designed to provide “simple but sufficie...
FINIX is a recently developed fuel behaviour module that is designed to provide "simple but sufficie...
In this paper, we present a novel, lightweight fuel behavior code, FINIX. FINIX provides an advanced...
The FINIX fuel behavior code has been updated to version 1.18.9. The new version has been validated,...
We have developed a new light-weight fuel behavior code FINIX, specifically designed for modeling of...
The FIN IX fuel behavior code has been updated to version 0.15.6. The focus of the update has in imp...
The FINIX fuel behavior module and interface for multiphysics applications has been developed at VTT...
VTT Technical Research Centre of Finland Ltd (VTT) is currently re-building its computational reacto...
The FINIX fuel behavior code has been updated to version 0.17.12. In the new version several steady-...
FINIX is a fuel performance module developed at VTT since 2012. Its intended purpose is to be couple...
This paper describes the recent developments in the multi-physics capabilities of the Serpent Monte ...
The FINIX fuel performance code has been developed at VTT to be coupled to existing thermal-hydrauli...
PANCHO has been the essential platform for the ongoing development of FINIX fuel behaviour module an...
New generation nuclear reactors are designed using advanced safety analysis methods. A thorough unde...
In the paper, the development of a multiphysics model for the transient analysis of non-moderated Mo...