[EN] This document describes the details of the simulations and uncertainty quantification of the Cold-Leg Mixing benchmark performed at the Institute for Energy Engineering (Polytechnic University of Valencia, Spain). The experiment, carried out by Texas A&M University, consists of the mixing of two water flows with different densities inside two tanks joined by a pipeline or cold leg. The tank that accumulates the low-density water and its connection to the cold leg are designed to create a downcomer like the one found in a PWR reactor vessel. On the other hand, the high-density water reservoir represents the cold-water injection accumulator. The method of Polynomial Chaos Expansion (PCE) based on Gaussian Quadrature is applied to calcula...
Steady state multiphase flow models are used for the design and operation of pipelines that are used...
A Tensorial-expanded Chaos Collocation method is used to quantify the effect of uncertainties on the...
In this work, Uncertainty Quantification (UQ) based on non-intrusive Polynomial Chaos Expansion (PCE...
The main objective of "Experimental Flow Mixing Effects in the Cold-Leg of a Pressurized Water React...
Uncertainty Quantification (UQ) of numerical simulations is highly relevant in the study and design ...
This paper documents testing methods, statistical data analysis, and a comparison of experimental re...
The purview of this thesis is insight into, and development of, methods for uncertainty quantificati...
At the interface of physics, mathematics, and computer science, Uncertainty Quanti cation (UQ) aims ...
Fluid dynamics is the study of how liquids and gases move and how different forces affect their move...
Talk: Regular Abstract: Predictive simulations based on multiphase computational fluid dynamics (CF...
In this paper a Two Step approach with Chaos Collocation for efficient uncertainty quantification in...
International audienceThe nuclear industry is interested in better understanding the behavior of tur...
This paper concerns the implementation of the generalized polynomial chaos (gPC) approach for parame...
Numerical simulations are subject to uncertainties due to the imprecise knowledge of physical proper...
When modeling physical systems, several sources of uncertainty are present. For example, variability...
Steady state multiphase flow models are used for the design and operation of pipelines that are used...
A Tensorial-expanded Chaos Collocation method is used to quantify the effect of uncertainties on the...
In this work, Uncertainty Quantification (UQ) based on non-intrusive Polynomial Chaos Expansion (PCE...
The main objective of "Experimental Flow Mixing Effects in the Cold-Leg of a Pressurized Water React...
Uncertainty Quantification (UQ) of numerical simulations is highly relevant in the study and design ...
This paper documents testing methods, statistical data analysis, and a comparison of experimental re...
The purview of this thesis is insight into, and development of, methods for uncertainty quantificati...
At the interface of physics, mathematics, and computer science, Uncertainty Quanti cation (UQ) aims ...
Fluid dynamics is the study of how liquids and gases move and how different forces affect their move...
Talk: Regular Abstract: Predictive simulations based on multiphase computational fluid dynamics (CF...
In this paper a Two Step approach with Chaos Collocation for efficient uncertainty quantification in...
International audienceThe nuclear industry is interested in better understanding the behavior of tur...
This paper concerns the implementation of the generalized polynomial chaos (gPC) approach for parame...
Numerical simulations are subject to uncertainties due to the imprecise knowledge of physical proper...
When modeling physical systems, several sources of uncertainty are present. For example, variability...
Steady state multiphase flow models are used for the design and operation of pipelines that are used...
A Tensorial-expanded Chaos Collocation method is used to quantify the effect of uncertainties on the...
In this work, Uncertainty Quantification (UQ) based on non-intrusive Polynomial Chaos Expansion (PCE...