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DTSTAMP:20190719T085744Z
LOCATION:HG E 1.1
DTSTART;TZID=Europe/Stockholm:20190614T093000
DTEND;TZID=Europe/Stockholm:20190614T100000
UID:submissions.pasc-conference.org_PASC19_sess183_pap_jan134@linklings.co
 m
SUMMARY:A High Performance Computing Framework for Multiphase, Turbulent F
 lows on Structured Grids
DESCRIPTION:Paper\nComputer Science and Applied Mathematics, Physics\n\nA 
 High Performance Computing Framework for Multiphase, Turbulent Flows on St
 ructured Grids\n\nKarnakov, Wermelinger, Chatzimanolakis, Litvinov, Koumou
 tsakos\n\nWe present a high performance computing framework for multiphase
 , turbulent flows on structured grids. The computational methods are valid
 ated on a number of benchmark problems such as the Taylor-Green vortex tha
 t are extended by the inclusion of bubbles in the flow field.  We exa
 mine the effect of bubbles in the turbulent kinetic energy dissipation rat
 e and provide extensive data for bubble trajectories and velocities that m
 ay assist the development of engineering models. The implementation of the
  present solver on massively parallel, GPU enhanced architectures allows f
 or large scale and high throughput simulations of multiphase flows.<br /><
 br />https://doi.org/10.1145/3324989.3325727
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