Liel Ishay scite author profile

Knowledge of the nuclear power plants (NPPs) containment atmosphere composition in the course of a severe accident is crucial for the effective design and positioning of the hydrogen explosion countermeasures. This composition strongly depends on containment flows which may include turbulent jet mixing in the presence of buoyancy, jet impingement onto the stratified layer, stable stratification layer erosion, steam condensation on the walls of the containment, condensation by emergency spray systems and other processes. Thus, in modeling of containment flows, it is essential to correctly predict these effects. In particular, a proper prediction of the turbulent jet behavior before it reaches the stably stratified layer is critical for the correct prediction of its mixing and impingement. Accordingly, validation study is presented for free neutral and buoyancy-affected turbulent jets, based on well-known experimental results from the literature. This study allows for the choice of a proper turbulence model to be applied for containment flow simulations. Furthermore, the jet behavior strongly depends on the issuing geometry. A comparative study of erosion process for the conditions similar to the ones of international benchmark exercise (IBE-3) is presented for different jet nozzle shapes.

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Heat Transfer in Cross Flow of Gas over a Smooth and Modified Tube

Ishay

Aharon

Ziskind

2014

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Turbulent jet erosion of a stably stratified gas layer in a nuclear reactor test containment

Ishay

Bieder

Ziskind

et al. 2015

Nuclear Engineering and Design

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Liel Ishay

Investigation of Modeling Approaches for a Sudden Release of a High-Pressure Hydrogen Jet into Low-Pressure Hydrogen

Nozzle Geometry Effect on Stratified Layer Erosion by Vertical Turbulent Jet

Heat Transfer in Cross Flow of Gas over a Smooth and Modified Tube

Turbulent jet erosion of a stably stratified gas layer in a nuclear reactor test containment

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