Description
This research presents a parametric extension of Dynamic Mode Decomposition (pDMD) applied to Molten Salt Fast Reactor dynamics analysis. The work addresses the computational limitations of Full-Order Models in nuclear reactor system evaluation, where discretized partial differential equations provide high accuracy at significant computational cost.This work contributes to the broader development of reduced-order modeling techniques for nuclear reactor analysis, addressing the need for computationally efficient models suitable for multi-query applications, design optimization, and real-time monitoring systems.
| Technical Track | Reactor Physics |
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Primary authors
Dr
Carolina Introini
(Politecnico di Milano)
Mr
Claudio Stecchetti
(Politecnico di Milano)
Mr
Stefano Riva
(Politecnico di Milano)
Prof.
Antonio Cammi
(Khalifa University)
Prof.
Francois Foulon
(Khalifa University)
Prof.
Mohammad Alrwashdeh
(Khalifa University)
