Validation and Calibration of Nuclear Thermal Hydraulics Multiscale Multiphysics Models - Subcooled Flow Boiling Study

Abstract: A ABSTRACTIn addition to a validation data plan for quantification of data needs and strategy for data collection and characterization [1] [2], development of advanced techniques for calibration and validation of complex multiscale, multiphysics nuclear reactor simulation codes are a major component of the CASL VUQ plan.Advanced modeling of LWR systems normally involves a range of physicochemical models describing multiple interacting phenomena, such as thermal hydraulics, reactor physics, coolant chemistry, e… Show more

“…The precision and reliability of model predictions largely depend on how well these closure models are calibrated, a process that is traditionally carried out step-by-step. Initially, empirical or semi-empirical submodels undergo calibration and validation using separate-effect test (SET) data, after which the entire model is validated against integral-effect test (IET) data [3]. SETs, commonly executed at a scale smaller than real reactors, primarily concentrate on specific experimental QoIs, minimizing the interference with other phenomena [4].…”

Scalable Inverse Uncertainty Quantification by Hierarchical Bayesian Modeling and Variational Inference

“…The precision and reliability of model predictions largely depend on how well these closure models are calibrated, a process that is traditionally carried out step-by-step. Initially, empirical or semi-empirical submodels undergo calibration and validation using separate-effect test (SET) data, after which the entire model is validated against integral-effect test (IET) data [3]. SETs, commonly executed at a scale smaller than real reactors, primarily concentrate on specific experimental QoIs, minimizing the interference with other phenomena [4].…”

Scalable Inverse Uncertainty Quantification by Hierarchical Bayesian Modeling and Variational Inference