A finite-volume method is considered for the computation of flows of two compressible, immiscible fluids at very different densities. A level-set technique is employed to distinguish between the two fluids. A simple ghost-fluid method is presented as a fix for the solution errors (‘pressure oscillations’) that may occur near two-fluid interfaces when applying a capturing method. Computations with it for compressible two-fluid flows with arbitrarily large density ratios yield perfectly sharp, pressure-oscillation-free interfaces. The masses of the separate fluids appear to be conserved up to first-order accuracy.
|Titel||Computational Fluid Dynamics 2002 (Proceedings of the Second International Conference on Computational Fluid Dynamics, ICCFD, Sydney, Australia, July 15-19, 2002)|
|Redacteuren||S. Armfield, P. Morgan, K, Srinivas|
|Plaats van productie||Berlin|
|ISBN van geprinte versie||3-540-00739-3|
|Status||Gepubliceerd - 2003|
Koren, B., Brummelen, van, E. H., Hemker, P. W., Leer, van, B., & Lewis, M. R. (2003). Fix for solution errors near interfaces in two-fluid computations. In S. Armfield, P. Morgan, & K. Srinivas (editors), Computational Fluid Dynamics 2002 (Proceedings of the Second International Conference on Computational Fluid Dynamics, ICCFD, Sydney, Australia, July 15-19, 2002) (blz. 523-528). Springer.