BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Australia/Melbourne X-LIC-LOCATION:Australia/Melbourne BEGIN:DAYLIGHT TZOFFSETFROM:+1000 TZOFFSETTO:+1100 TZNAME:AEDT DTSTART:19721003T020000 RRULE:FREQ=YEARLY;BYMONTH=4;BYDAY=1SU END:DAYLIGHT BEGIN:STANDARD DTSTART:19721003T020000 TZOFFSETFROM:+1100 TZOFFSETTO:+1000 TZNAME:AEST RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20260114T163633Z LOCATION:Darling Harbour Theatre\, Level 2 (Convention Centre) DTSTART;TZID=Australia/Melbourne:20231212T093000 DTEND;TZID=Australia/Melbourne:20231212T124500 UID:siggraphasia_SIGGRAPH Asia 2023_sess209_papers_171@linklings.com SUMMARY:A Parametric Kinetic Solver for Simulating Boundary-Dominated Turb ulent Flow Phenomena DESCRIPTION:Mengyun Liu and Xiaopei Liu (ShanghaiTech University)\n\nBound ary layer flow plays a very important role in shaping the entire flow feat ure near and behind obstacles inside fluids. Thus, boundary treatment meth ods are crucial for a physically consistent fluid simulation, especially w hen turbulence occurs at a high Reynolds number, in which accurately handl ing thin boundary layer becomes quite challenging. Traditional Navier-Stok es solvers usually construct multi-resolution body-fitted meshes to achiev e high accuracy, often together with near-wall and sub-grid turbulence mod eling. However, this could be time-consuming and computationally intensive even with GPU accelerations. An alternative and much faster approach is t o switch to a kinetic solver, such as the lattice Boltzmann model, but bou ndary treatment has to be done in a cut-cell manner, sacrificing accuracy unless grid resolution is much increased. In this paper, we focus on simul ating the boundary-dominated turbulent flow phenomena with an efficient ki netic solver. In order to significantly improve the cut-cell-based boundar y treatment for higher accuracy without excessively increasing the simulat ion resolution, we propose a novel parametric boundary treatment model, in cluding a semi-Lagrangian scheme at the wall for non-equilibrium distribut ion functions, together with a purely link-based near-wall analytical meso scopic model by analogy with the macroscopic wall modeling approach, which is yet simple to compute. Such a new method is further extended to handle moving boundaries, showing increased accuracy. Comprehensive analyses are conducted, with a variety of simulation results that are both qualitative ly and quantitatively validated with experiments and real life scenarios, and compared to existing methods, to indicate superiority of our method. W e highlight that our method not only provides a more accurate way for boun dary treatment, but also a valuable tool to control boundary layer behavio rs. This has not been achieved and demonstrated before in computer graphic s, which we believe will be very useful in practical engineering.\n\nRegis tration Category: Full Access, Enhanced Access, Trade Exhibitor, Experienc e Hall Exhibitor\n\n URL:https://asia.siggraph.org/2023/full-program?id=papers_171&sess=sess209 END:VEVENT END:VCALENDAR