Simulating turbulent bubbly flows in nuclear reactors
https://phys.org/news/2018-06-simulating-turbulent-nuclear-reactors.html
Researchers are shedding light on boiling phenomena, bubble formation, and turbulent liquid/gas flows in nuclear reactor geometries. Using ALCF supercomputers, they devised a way to conduct a direct numerical simulation of fully resolved deformable bubbles at unprecedented scale. The team's approach performs smaller simulations to obtain statistically steady-state conditions and extract physically based numerical data for the development of coarser scale models. DOE's Consortium for Advanced Simulation of Light Water Reactors used the results from the detailed simulations to develop a new generation of boiling models to be included in an advanced virtual reactor multiphysics model. Additionally, the simulations produced detailed distributions of bubble concentration and estimated the variation of the forces acting on the bubbles, providing insights to advance the understanding of turbulent two-phase flows.
Large-scale runs of the new approach demonstrated the new bubble tracking approach, as well as the data processing and collecting techniques at scale for future simulations. The team's method, detailed in a paper published in Nuclear Engineering and Design, can collect detailed two-phase flow information at the individual bubble level. This advanced analytical framework will help researchers gain insights from the "big data" produced by the large-scale simulations.
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