“Multifluid finite volume Navier-Stokes solutions for realistic fluid animation” by Turner and Mazzone

  • ©John A. Turner and Andre C. Mazzone

Conference:


Type(s):


Interest Area:


    Production & Animation

Title:

    Multifluid finite volume Navier-Stokes solutions for realistic fluid animation

Session/Category Title:   Simulation for Animation


Presenter(s)/Author(s):



Abstract:


    A multifluid, incompressible, variable-density, finite volume solution of the Navier-Stokes equations for generation of realistic fluid animation. A high-resolution tracking algorithm is used to capture the complex topology of interfaces, and results are rendered using blobs.

References:


    1. N. Foster and D. Metaxas. Realistic Animation of Liquids, Proceedings GI, pp. 204-212, 1996.
    2. M. Kass and G. Miller. Rapid, Stable Fluid Dynamics for Computer Graphics, Proceedings of SIGGRAPH 90, in Computer Graphics, volume 24, pp. 49-57, 1990.
    3. W. J. Rider, D. B. Kothe, S. J. Mosso, J. H. Cerruti & J. I. Hochstein. Accurate Solution Algorithms for Incompressible Multiphase Fluid Flows,Technical Report AIAA 95-0699, AIAA, 1995. Presented at the 33rd Aerospace Sciences Meeting and Exhibit.
    4. W. J. Rider, D. B. Kothe, E. G. Puckett & I. D. Aleinov. Accurate and Robust Methods for Variable Density Incompressible Flows with Discontinuities, In V. Venkatakrishnan, M. D. Salas & S. R. Chakravarthy, editors, Workshop on Barriers and Challenges in Computational Fluid Dynamics, pp. 213-230, Boston, MA, 1998. Kluwer Academic Publishers.
    5. J. A.Turner, R. C. Ferrell & D. B. Kothe. JTpack90: A Parallel, Object-Based Fortran 90 Linear Algebra Package, Proceedings of the Eighth SIAM Conference on Parallel Processing for Scientific Computing, Minneapolis, MN, March 14-17, 1997.


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