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W134255162 abstract "Free-surface flow simulations are an important design and analysis tool in many areas of engineering, including civil engineering, marine and coating industries, and off-shore exploration. Two alternative computational approaches—interface-tracking and interface-capturing—are commonly considered. While interface-capturing offers unmatched flexibility for complex free-surface motion, the interfacetracking approach is very attractive due to its better mass conservation properties at low resolution. This provides motivation for expanding the reach of the interface-tracking methods. The fundamentals of interface-tracking free-surface flow simulations—stabilized discretizations of Navier-Stokes equations, ALE and space-time formulations on moving grids, general mesh update mechanisms based on solid mechanics—are widely known and adopted. Challenges still exist, and we discuss some of the issues that are limiting the success of interface-tracking approach. The generalized form of the kinematic condition, in the form of an elevation equation, as well as its stabilized GLS formulation, has been derived for cases where surface nodes move along prescribed straight lines. This method was then used to simulate water motion in trapezoidal tanks and channels. A further generalization is proposed for cases where surface nodes move along prescribed curvilinear spines. This allows for robust representation of the kinematic condition in an even wider set geometries, such as cylindrical vessels and channels. The wetting of solid walls is often represented on the macro scale with a slip boundary condition, at least in the immediate vicinity of the solid-liquid-air interface. A consistent application of a full slip condition at curved boundaries is non-trivial, and the standard approach is seen to induce spurious gravity-driven circulation in some cases. We propose an implementation of the slip condition that uses the concept of BC-free boundary condition. The usefulness of our overall approach is demonstrated in 2D and 3D situations." @default.
W134255162 created "2016-06-24" @default.
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W134255162 date "2006-09-06" @default.
W134255162 modified "2023-09-23" @default.
W134255162 title "Towards robust free-surface flow simulation" @default.
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