In this talk we report on Large Eddy Simulations of an impinging planar jet to a turbulent channel flow in a T-Junction configuration. Due to its capacity for mixing and heat transfer enhancement, this type of flow is encountered in various industrial applications. In particular, our work is related to the emergency cooling systems of pressurized water reactors. As is well known, this type of flow is dominated by a large separation bubble downstream the jet impingement location. Secondary regions of flow separation are predicted both upstream and downstream the impinging jet. We describe how these separation regions interact with the shear layer that is formed by the injection of the jet to the crossflow, and how they affect the mixing proc...
A numerical investigation to determine the velocity and heat transfer characteristics of multiple im...
In this study, numerical simulation methods were used to analyze the flow characteristics of annular...
Results of numerical simulation of two-dimensional flow field and heat transfer impingement due to l...
In this paper we report on a direct numerical simulation (DNS) of turbulent heat transfer in a T-jun...
In this paper we report on a numerical study of the interaction and merging of a turbulent crossflow...
This PhD dissertation consists of a detailed study of the mixing between a turbulent crossflow and a...
Inflow conditions for time dependent flow configurations are of major importance for the developing ...
This thesis deals with Large Eddy Simulation (LES) of impinging air jets. The impinging jet configur...
In this talk we report on wall-resolved Large Eddy Simulations of turbulent heat transfer between a ...
This article compares steady-state and transient simulations in predicting impinging jet heat transf...
In this paper we present a detailed study of turbulent mixing between a cold crossflow and a hot inc...
This thesis collects two studies on heat transfer in impinging jets and on methods for modeling flow...
International audienceIn this paper we will numerically analyse flow mixing in multiple jets in a cr...
Heat and mass transfer can be greatly increased when using impinging jets, regardless the applicatio...
The analysis of fluid flow and heat transfer characteristics of turbulent single and multiple jets i...
A numerical investigation to determine the velocity and heat transfer characteristics of multiple im...
In this study, numerical simulation methods were used to analyze the flow characteristics of annular...
Results of numerical simulation of two-dimensional flow field and heat transfer impingement due to l...
In this paper we report on a direct numerical simulation (DNS) of turbulent heat transfer in a T-jun...
In this paper we report on a numerical study of the interaction and merging of a turbulent crossflow...
This PhD dissertation consists of a detailed study of the mixing between a turbulent crossflow and a...
Inflow conditions for time dependent flow configurations are of major importance for the developing ...
This thesis deals with Large Eddy Simulation (LES) of impinging air jets. The impinging jet configur...
In this talk we report on wall-resolved Large Eddy Simulations of turbulent heat transfer between a ...
This article compares steady-state and transient simulations in predicting impinging jet heat transf...
In this paper we present a detailed study of turbulent mixing between a cold crossflow and a hot inc...
This thesis collects two studies on heat transfer in impinging jets and on methods for modeling flow...
International audienceIn this paper we will numerically analyse flow mixing in multiple jets in a cr...
Heat and mass transfer can be greatly increased when using impinging jets, regardless the applicatio...
The analysis of fluid flow and heat transfer characteristics of turbulent single and multiple jets i...
A numerical investigation to determine the velocity and heat transfer characteristics of multiple im...
In this study, numerical simulation methods were used to analyze the flow characteristics of annular...
Results of numerical simulation of two-dimensional flow field and heat transfer impingement due to l...