Capillary instability of a liquid jet (1280 by 160, WMV9).
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Capillary instability of a liquid jet (1280 by 160, WMV9). |
Discontinuous Fluids |
Abstract At interfaces between different fluids, properties such as density, viscosity, and molecular cohesion are discontinuous. To animate small-scale details of incompressible viscous multi-phase fluids realistically, we focus on the discontinuities in the state variables that express these properties. Surface tension of both free and bubble surfaces is modeled using the jump condition in the pressure field; and discontinuities in the velocity gradient field, driven by viscosity differences, were also considered. To obtain derivatives of the pressure and velocity fields with sub-grid accuracy, they are extrapolated across interfaces using continuous variables based on physical properties. The numerical methods that we present are easy to implement and do not impact the performance of existing solvers. Small-scale fluid motions, such as capillary instability, breakup of liquid sheets, and bubbly water can all be successfully animated. |
Publication Jeong-Mo Hong and Chang-Hun Kim, "Discontinuous Fluids (pdf, 5.51MB) ", ACM Transactions on Graphics (In Proceedings of ACM SIGGRAPH 2005), Volume 24, Issue 3, pp.915-920, 2005. |
Demo Videos |
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Capillary instability of a liquid jet (640 by 480, DivX). |
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Pouring on to a sphere (640 by 480, DivX). |
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Pouring on to a sphere - close view (640 by 480, DivX). |
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Breakup of a liquid sheet (640 by 480, DivX). |
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Animation of bubbly water (640 by 480, DivX). |
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Animation of bubbly water - side view (640 by 480, DivX). |
Smeared Delta Method vs. Ghost Fluid Method |
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Smeared Delta - Low Surface Tension (640 by 480, DivX). |
Ghost Fluid Method - Low Surface Tension (640 by 480, DivX). |
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Smeared Delta - High Surface Tension (640 by 480, DivX). |
Ghost Fluid Method - High Surface Tension (640 by 480, DivX). |
Additional Videos |
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Pouring Water with bubbles (640 by 480, DivX). |
October 2005 by Jeong-Mo Hong |
